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          <dc:description>This data publication contains the data for our publication "Self-induced Floquet magnons in magnetic vortices". The dataset is structured in folders corresponding to the different figures in the paper. Folder FIG-2_and_S3 contains the simulated spectra and the experimental spectra measured with Brillouin-light-scattering microscopy. The experimental spectra contain the data integrated for the measurement positions described in the methods section. In addition, the simulation scripts for the spectra and mode profiles are included. The simulation files for the dispersion are in the parent directory. Folder FIG-3 contains the evaluated numerical data presented in the corresponding panels, as well as the simulation files used to generate the data. Folder FIG-4_and_S5_S10 contains the experimental spectra measured with Brillouin-light-scattering microscopy as a function of power and time. Folder FIG-S1 contains the log file for the sample fabrication and scanning electron microscope (SEM) images. Important note for the SEM images: When acquiring the SEM images, the calibration of the Raith150 tool was off momentarily. This resulted in recording the wrong scale bars with the images. The structure dimensions are known from the design file and were confirmed at another time after adjusting the calibration. Folder S2 contains the BLS spectra for different frequencies of the gyration excitation. Figures S4 and S5 contain the simulated spectra for the respective panels shown. Folder S6 contains the power sweeps and time trace BLS data. Fig S9 contains the shown BLS data.}</dc:description>
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          <dc:subject>magnon</dc:subject>
          <dc:subject>Floquet states</dc:subject>
          <dc:subject>nonlinearity</dc:subject>
          <dc:title>Data publication: Self-induced Floquet magnons in magnetic vortices</dc:title>
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          <dc:description>We acknowledge the M-ERA.NET Program for financial support via the GOFIB project supported by the tax funds on the basis of the budget passed by the Saxonian state parliament in Germany and administrated in Finland by the Academy of Finland project number 352518. 
UB, GH, and NK acknowledge support by the COST Action CA19140 FIT4NANO.
This work was partially supported by the Initiative and Networking Fund of the Helmholtz Association (FKZ VH-VI-442 Memriox) and the Helmholtz Energy Materials Characterization Platform (03ET7015). 
We are grateful for CSC-Finnish IT Center for Science for generous computational resources.</dc:description>
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          <dc:subject>Gallium Oxide</dc:subject>
          <dc:subject>Defects in Gallium Oxide</dc:subject>
          <dc:subject>Positron Annihilation Lifetime Spectroscopy</dc:subject>
          <dc:subject>Doppler broadening spectroscopy</dc:subject>
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          <dc:description>The potential of adsorbed gaseous molecules to create shallow electronic states for thermally excited charge carrier transport
and to engineer silicon transistor properties has been largely overlooked compared to traditional substitutional impurities. This
paper successfully modifies the electrical properties of ambipolar silicon junctionless nanowire transistors (Si-JNTs) using the reducing properties of ammonia (NH3) for selective detection. Physisorption of NH3 induces a dual response in both p- and n-type conduction channels of ambipolar Si-JNTs, significantly altering current and key parameters, including the “on” current (Ion), threshold voltage (Vth), and mobility (μ). NH3 interaction increases conduction in the channel and decreases it in the p-channel, acting as an electron donor and hole trap, as supported by Density Functional Theory (DFT) calculations. This provides a pathway for charge transfer and ″pseudo″ molecular doping in ambipolar Si-JNTs. This NH3-mediated molecular doping and conduction modulation in Si transistor enabled, for the first time, the electrical detection of gaseous NH3 at room temperature across a wide concentration range (200 ppb to 50 ppm), achieving high sensitivity (200 ppb) and precise selectivity under ultraviolet (UV) light. UV illumination dynamically modulates current and reveals distinct sensing features in the pand n-channels of the dual-responsive Si JNTs. The ambipolar Si-JNT sensor exhibits a fast response time of 1.91 min for 0.8 ppm of NH3 in the hole conduction channel and a high sensitivity of 80% for 0.8 ppm of NH3 in the electron conduction channel. This dualchannel approach optimizes sensor performance by leveraging the most responsive parameters from each channel. Furthermore, the ambipolarity of Si-JNTs broadens the parameter space for developing a multivariate calibration model, enhancing the selectivity of Si-JNT sensors for NH3 detection</dc:description>
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          <dc:subject>silicon nanowire</dc:subject>
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          <dc:subject>density functional theory</dc:subject>
          <dc:subject>ammonia sensing</dc:subject>
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          <dc:title>Ammonia Sensing via Pseudo Molecular Doping in UV-Activated Ambipolar Silicon Nanowire Transistors</dc:title>
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          <dc:subject>two-dimensional semiconductors</dc:subject>
          <dc:subject>black phosphorus</dc:subject>
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          <dc:subject>data-driven research</dc:subject>
          <dc:subject>computational materials science</dc:subject>
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          <dc:subject>bottom-up nanofabrication</dc:subject>
          <dc:subject>ion-induced nanopatterning</dc:subject>
          <dc:subject>physical vapor deposition</dc:subject>
          <dc:subject>transmission electron microscopy</dc:subject>
          <dc:subject>energy-dispersive X-ray spectroscopy</dc:subject>
          <dc:title>Data publication: Bottom-up Fabrication of FeSb₂ Nanowires on Crystalline GaAs Substrates with Ion-induced Pre-patterning</dc:title>
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          <dc:subject>helium ion microscopy</dc:subject>
          <dc:subject>him</dc:subject>
          <dc:title>Data publication: Contribution of black carbon and desert dust to aerosol absorption in the atmosphere of the Eastern Arabian Peninsula</dc:title>
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          <dc:type>dataset</dc:type>
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        <identifier>oai:rodare.hzdr.de:578</identifier>
        <datestamp>2024-08-13T12:18:59Z</datestamp>
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          <dc:creator>Neugebauer, Nils</dc:creator>
          <dc:creator>Hache, Toni</dc:creator>
          <dc:creator>Elm, M.</dc:creator>
          <dc:creator>Hofmann, D. M.</dc:creator>
          <dc:creator>Heiliger, C.</dc:creator>
          <dc:creator>Schultheiß, Helmut</dc:creator>
          <dc:creator>Klar, P. J.</dc:creator>
          <dc:date>2020-11-09</dc:date>
          <dc:description>We present a frequency and magnetic field dependent investigation of ordered arrangements of 20 nm magnetic
nanoparticles (MNPs) consisting of magnetite (Fe3O4) by employing micro Brillouin light scattering
microscopy. We utilized electron beam lithography to prepare hexagonally arranged, circularly shaped MNPassemblies
consisting of a single layer of MNPs using a variant of the Langmuir-Blodgett technique. By
comparing the results with non-structured, layered superlattices of MNPs, further insight into the influence
of size and geometry of the arrangement on the collective properties is obtained. We show that at low static
external field strengths, two signals occur in frequency dependent measurements for both non-structured and
structured assemblies. Enlarging the static external field strength leads to a sharpening of the main signal,
while the satellite signal decreases in its intensity and increases in its linewidth. The occurrence of multiple
signals at low external field strengths is also confirmed by sweeping the static external field and keeping the
excitation frequency constant. Micromagnetic simulations unravel the origin of the different signals and their
dependence on the static external field strength, enabling an interpretation of the observed characteristics in
terms of different local environments of an MNPs forming the MNP assembly.</dc:description>
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          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>Frequency- and magnetic-field-dependent properties of ordered magnetic nanoparticle arrangements</dc:title>
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          <dc:type>dataset</dc:type>
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        <identifier>oai:rodare.hzdr.de:4029</identifier>
        <datestamp>2026-06-02T09:35:49Z</datestamp>
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        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:contributor>Nihei, Anastasiia</dc:contributor>
          <dc:contributor>Barnowsky, Tom</dc:contributor>
          <dc:contributor>Friedrich, Rico</dc:contributor>
          <dc:creator>Nihei, Anastasiia</dc:creator>
          <dc:creator>Barnowsky, Tom</dc:creator>
          <dc:creator>Friedrich, Rico</dc:creator>
          <dc:date>2025-03-10</dc:date>
          <dc:description>This dataset includes the primary research data for the publication "Non-van der Waals Heterostructures".</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/4029</dc:identifier>
          <dc:identifier>10.14278/rodare.4029</dc:identifier>
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          <dc:language>eng</dc:language>
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          <dc:relation>doi:10.1002/aelm.202201112</dc:relation>
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          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>2D materials</dc:subject>
          <dc:subject>non-van der Waals compounds</dc:subject>
          <dc:subject>heterostructures</dc:subject>
          <dc:subject>interface design</dc:subject>
          <dc:subject>magnetism</dc:subject>
          <dc:subject>data-driven research</dc:subject>
          <dc:subject>computational materials science</dc:subject>
          <dc:subject>high-throughput computing</dc:subject>
          <dc:title>Data publication: Non-van der Waals Heterostructures</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
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        <identifier>oai:rodare.hzdr.de:3024</identifier>
        <datestamp>2024-08-12T09:23:02Z</datestamp>
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          <dc:creator>Bredol, Philipp</dc:creator>
          <dc:creator>David, Felix</dc:creator>
          <dc:creator>Jagtap, Nagesh</dc:creator>
          <dc:creator>Astakhov, Georgy</dc:creator>
          <dc:creator>Erbe, Artur</dc:creator>
          <dc:creator>Weig, Eva M.</dc:creator>
          <dc:creator>Klaß, Yannik</dc:creator>
          <dc:date>2024-06-17</dc:date>
          <dc:description>The file "figures.hdf5" contains all numbers plotted in the figures of the main manuscript. Each entry in the first hierarchy level of the file, e.g. "Figure 2a", corresponds to one subfigure. Each entry in the second hierarchy level (if existent) corresponds to one of the curve/subset of the the respective figure, e.g. if curves for multiple fluences are plotted. The innermost hierarchy level contains the data arrays. The dataset name corresponds to the axis label and units. The file "analyzed.hdf5" contains frequencies, quality factors, stress and Young's modulus fit results for each measured nanostring device on each measured sample. The first hierarchy level represents the sample (A or B). The second hierarchy level represents the accumulated implantation fluence that the sample has seen before the respective measurements. The third hierarchy level represents the write field, i.e. string array index, on the chip (0-3) and the fourth hierarchy level represents the string length within the write field. Each length exists exactly once in each write field. The innermost hierarchy level contains arrays of mode number, frequency, quality factor and "raw data indices" (see next paragraph) representing each measured resonance. The fields Young's modulus and pre-stress are scalars containing the respective fit result and its uncertainty. The file "raw.hdf5" finally contains all raw spectra. The first hierarchy level corresponds to unique indices of the respective measurement. This is intended as a look up table for the "raw data indices" of the "analyzed.hdf5" file. Using the index found in the "analyzed.hdf5", one can obtain the raw frequency sweep data and metadata. The file "srim-VACANCY.txt" is the vacancy output file of the SRIM simulation discussed in the main manuscript.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/3024</dc:identifier>
          <dc:identifier>10.14278/rodare.3024</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:3024</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-39128</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-38866</dc:relation>
          <dc:relation>doi:10.14278/rodare.3023</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>nanomechanics</dc:subject>
          <dc:subject>defects</dc:subject>
          <dc:subject>ion beam irradiation</dc:subject>
          <dc:subject>quantum sensors</dc:subject>
          <dc:title>Data publication: Effect of Helium Ion Implantation on 3C-SiC Nanomechanical String Resonators</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
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      <header>
        <identifier>oai:rodare.hzdr.de:908</identifier>
        <datestamp>2024-08-13T12:14:14Z</datestamp>
        <setSpec>openaire_data</setSpec>
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        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Welsch, Malte</dc:creator>
          <dc:creator>Singh, Abhishek</dc:creator>
          <dc:creator>Winnerl, Stephan</dc:creator>
          <dc:creator>Pashkin, Oleksiy</dc:creator>
          <dc:creator>Xu, Ming</dc:creator>
          <dc:creator>Li, Mengxia</dc:creator>
          <dc:creator>Helm, Manfred</dc:creator>
          <dc:creator>Schneider, Harald</dc:creator>
          <dc:date>2021-04-01</dc:date>
          <dc:description>Data file names start with the corresponding figure in the manuscript. For example- file "F1cd_velocity vs E_hs_Jan8.opju" means this data set is used to plot Fig. 1c and 1d (So, name start with F1cd_). </dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/908</dc:identifier>
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        <datestamp>2025-01-07T13:15:50Z</datestamp>
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          <dc:creator>Neumann, Bruno</dc:creator>
          <dc:creator>Fähler, Sebastian</dc:creator>
          <dc:date>2024-12-20</dc:date>
          <dc:description>Data publication for the FEM-simulation study entitled "Design guidelines for efficient thermoelastic harvesting of low-grade waste heat" by Bruno Neumann and Sebastian Fähler. The attached archive contains a readme file to explain the structure of the data and where it can be found.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/3348</dc:identifier>
          <dc:identifier>10.14278/rodare.3348</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:3348</dc:identifier>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-40324</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-40325</dc:relation>
          <dc:relation>doi:10.14278/rodare.3347</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:title>Design guidelines for efficient thermoelastic harvesting of low-grade waste heat</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
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    <record>
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        <identifier>oai:rodare.hzdr.de:654</identifier>
        <datestamp>2024-08-13T12:17:03Z</datestamp>
        <setSpec>openaire_data</setSpec>
        <setSpec>openaire_data</setSpec>
        <setSpec>user-rodare</setSpec>
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      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Zehner, J.</dc:creator>
          <dc:creator>Soldatov, I.</dc:creator>
          <dc:creator>Schneider, S.</dc:creator>
          <dc:creator>Heller, R.</dc:creator>
          <dc:creator>Khojasteh, N. B.</dc:creator>
          <dc:creator>Schiemenz, S.</dc:creator>
          <dc:creator>Fähler, S.</dc:creator>
          <dc:creator>Nielsch, K.</dc:creator>
          <dc:creator>Schäfer, R.</dc:creator>
          <dc:creator>Leistner, K.</dc:creator>
          <dc:date>2020-09-16</dc:date>
          <dc:description>RBS raw data for publication "Voltage‐Controlled Deblocking of Magnetization Reversal in Thin Films by Tunable Domain Wall Interactions and Pinning Sites"

Simulation results using SIMNRA are included as well</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/654</dc:identifier>
          <dc:identifier>10.14278/rodare.654</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:654</dc:identifier>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-31847</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-31846</dc:relation>
          <dc:relation>doi:10.14278/rodare.653</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>RBS raw data for publication "Voltage‐Controlled Deblocking of Magnetization Reversal in Thin Films by Tunable Domain Wall Interactions and Pinning Sites"</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:2080</identifier>
        <datestamp>2024-08-12T09:48:22Z</datestamp>
        <setSpec>openaire_data</setSpec>
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        <setSpec>user-fwi</setSpec>
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      </header>
      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Hoffmann, V.</dc:creator>
          <dc:creator>Gebel, B.</dc:creator>
          <dc:creator>Heller, René</dc:creator>
          <dc:creator>Gemming, T.</dc:creator>
          <dc:date>2023-01-13</dc:date>
          <dc:description>Raw RBS data for article Investigation of matrix independent calibration of oxygen in glow discharge optical emission spectrometry. All raw data as well as simulation files (SIMNRA) are included.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/2080</dc:identifier>
          <dc:identifier>10.14278/rodare.2080</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:2080</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>doi:10.1039/D2JA00043A</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-36242</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-36241</dc:relation>
          <dc:relation>doi:10.14278/rodare.2079</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>glow discharge</dc:subject>
          <dc:subject>optical emission spectroscopy</dc:subject>
          <dc:subject>material science</dc:subject>
          <dc:title>RBS Raw Data for publication: Investigation of matrix independent calibration of oxygen in glow discharge optical emission spectrometry</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:3562</identifier>
        <datestamp>2025-03-03T07:20:45Z</datestamp>
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        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Kucal, E.</dc:creator>
          <dc:creator>Józwik, P.</dc:creator>
          <dc:creator>Mieszczynski, C.</dc:creator>
          <dc:creator>Heller, René</dc:creator>
          <dc:creator>Akhmadaliev, Shavkat</dc:creator>
          <dc:creator>Dufour, C.</dc:creator>
          <dc:creator>Czerski, K.</dc:creator>
          <dc:date>2025-02-05</dc:date>
          <dc:description>RBS channeling spectra measured at the 2MV Van-de-Graaff accelerator with 1.7 MeV He ions. The measured silicon carbide samples were previously irradiated with Si and C ions at different ion energies and different temperatures at 3 MV and 6 MV tandem accelerators. The backscattered He ions were detected by a silicon surface barrier detector at an angle of 170◦.

For each sample, random spectra were recorded by tilting a sample at angles θ and ϕ of −4◦ off the normal to the surface and consequently changing one of them within the range (−4◦, +4◦) with a step of 0.2◦, while the other one was fixed at −4◦ or +4◦, respectively. Such random measurements also allow a high-precision alignment of the sample along the ion beam by the indication of the main crystallographic planes. The sample orientation for the measurements in channeling mode is determined by the values of the theta and phi angles corresponding to the intersection of the crystallographic planes. RBS/C analysis allows the evaluation of disorder after irradiation. The crystalline quality of an as-grown sample was evaluated as the ratio of the backscattered yield of an aligned pristine spectrum to that of the random spectrum.

The results show that annealing and repair effects are important for the prediction of radiation damage in SiC.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/3562</dc:identifier>
          <dc:identifier>10.14278/rodare.3562</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:3562</dc:identifier>
          <dc:language>eng</dc:language>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>doi:10.3390/ma17122843</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-40932</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-40896</dc:relation>
          <dc:relation>doi:10.14278/rodare.3561</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>radiation damage</dc:subject>
          <dc:subject>stopping power</dc:subject>
          <dc:subject>Rutherford backscattering</dc:subject>
          <dc:subject>ion channeling</dc:subject>
          <dc:title>RBS Spectra: "Temperature Effects of Nuclear and Electronic Stopping Power on Si and C Radiation Damage in 3C-SiC"</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:2070</identifier>
        <datestamp>2024-08-12T09:48:40Z</datestamp>
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          <dc:creator>Iurchuk, Vadym</dc:creator>
          <dc:creator>Pablo-Navarro, Javier</dc:creator>
          <dc:creator>Hula, Tobias</dc:creator>
          <dc:creator>Narkowicz, Ryszard</dc:creator>
          <dc:creator>Hlawacek, Gregor</dc:creator>
          <dc:creator>Koerber, Lukas</dc:creator>
          <dc:creator>Kakay, Attila</dc:creator>
          <dc:creator>Schultheiss, Helmut</dc:creator>
          <dc:creator>Fassbender, Juergen</dc:creator>
          <dc:creator>Lenz, Kilian</dc:creator>
          <dc:creator>Lindner, Juergen</dc:creator>
          <dc:date>2023-01-11</dc:date>
          <dc:description>This dataset contains raw data (SEM images, AFM, FMR, BLS, TetraX) used to study the dynamical edge modes in closely spaced permalloy microstrips.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/2070</dc:identifier>
          <dc:identifier>10.14278/rodare.2070</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:2070</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-36217</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-35208</dc:relation>
          <dc:relation>doi:10.14278/rodare.2069</dc:relation>
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          <dc:relation>url:https://rodare.hzdr.de/communities/hzdr</dc:relation>
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          <dc:relation>url:https://rodare.hzdr.de/communities/matter</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>Data publication : Tailoring crosstalk between localized 1D spin-wave nanochannels using focused ion beams</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:4442</identifier>
        <datestamp>2026-01-26T06:56:32Z</datestamp>
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        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Barnowsky, Tom</dc:creator>
          <dc:creator>Christie, Madeleine</dc:creator>
          <dc:creator>Nihei, Anastasiia</dc:creator>
          <dc:creator>Friedrich, Rico</dc:creator>
          <dc:date>2026-01-23</dc:date>
          <dc:description>Primary Research Data for "Kagome Flat Bands from Self-Assembled Water on Non–van der Waals 2D Materials"

Tom Barnowsky, Madeleine Christie, Anastasiia Nihei, and Rico Friedrich
TU Dresden &amp; Helmholtz-Zentrum Dresden-Rossendorf, Germany

This dataset contains the primary data supporting the publication "Kagome Flat Bands from Self-Assembled Water on Non–van der Waals 2D Materials".

Data Structure

The dataset is organized according to the following directory template:

.
├── binaries
│   ├── 001_facet_Al2O3_ICSD_89664_PBE_relax_ions_cell_shape
│   │   └── passivation_H2O_full
│   │       ├── aflow.in
│   │       ├── ...
│   │       └── MD_300K_PROB_0.01
│   │           ├── INCAR.xz
│   │           └── ...
│   └── ...
└── ternaries
    └── ...

The data hierarchy consists of the following levels:


	System type: `binaries` (two chemical species) versus `ternaries` (three chemical species).
	Pristine slab data: Directories of the form `001_facet_*` contain pristine slab structures from Refs. [1,2]. These directories are left empty as this data can be acquired from the associated data publications [3,4].
	H2O passivated slabs: The directories `passivation_H2O_full` contains AFLOW/VASP [5–10] input and output files for structural relaxation and electronic band structure calculations.
	Molecular dynamics simulations: The directories `MD_300K_PROB_0.01` contains VASP input and output files for molecular dynamics simulations at 300 K used to assess structural stability.


Additional electronic analysis: For KSbO3, an additional subdirectory `electronic_details` inside `passivation_H2O_full` contains charge density differences, local electrostatic potentials, and partial charge densities.

Solvation Calculations

For the 11 systems identified as dynamically stable, a duplicate of the directory tree described above is provided with the suffix `_water_solvation`. These directories contain VASPsol++ [11] solvation-corrected calculations for both pristine slabs and H2O-passivated sheets.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/4442</dc:identifier>
          <dc:identifier>10.14278/rodare.4442</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:4442</dc:identifier>
          <dc:language>eng</dc:language>
          <dc:relation>doi:10.1021/acs.nanolett.1c03841</dc:relation>
          <dc:relation>doi:10.1002/aelm.202201112</dc:relation>
          <dc:relation>doi:10.14278/rodare.1421</dc:relation>
          <dc:relation>doi:10.14278/rodare.1852</dc:relation>
          <dc:relation>doi:10.1007/s44210-025-00058-2</dc:relation>
          <dc:relation>doi:10.1103/PhysRevB.47.558</dc:relation>
          <dc:relation>doi:10.1103/PhysRevB.49.16223</dc:relation>
          <dc:relation>doi:10.1088/0953-8984/6/40/015</dc:relation>
          <dc:relation>doi:10.1103/PhysRevB.54.11169</dc:relation>
          <dc:relation>doi:10.1016/0927-0256(96)00008-0</dc:relation>
          <dc:relation>doi:10.1063/5.0176308</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-42857</dc:relation>
          <dc:relation>doi:10.14278/rodare.4441</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/crc1415</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/matter</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>2D materials</dc:subject>
          <dc:subject>passivation</dc:subject>
          <dc:subject>non-van der Waals compounds</dc:subject>
          <dc:subject>high-throughput computing</dc:subject>
          <dc:subject>flat bands</dc:subject>
          <dc:subject>kagome lattice</dc:subject>
          <dc:title>Data Publication: Kagome Flat Bands from Self-Assembled Water on Non–van der Waals 2D Materials</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
      </metadata>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:656</identifier>
        <datestamp>2024-08-16T08:10:18Z</datestamp>
        <setSpec>openaire_data</setSpec>
        <setSpec>user-rodare</setSpec>
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      </header>
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        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Selau, F. F.</dc:creator>
          <dc:creator>Trombini, H.</dc:creator>
          <dc:creator>Marmitt, G. G.</dc:creator>
          <dc:creator>de Andrade, A. M. H.</dc:creator>
          <dc:creator>Morais, J.</dc:creator>
          <dc:creator>Grande, P. L.</dc:creator>
          <dc:creator>Alencar, I.</dc:creator>
          <dc:creator>Vos, M.</dc:creator>
          <dc:creator>Heller, R.</dc:creator>
          <dc:date>2020-09-14</dc:date>
          <dc:description>MEIS raw data and maps for publication "Stopping and straggling of 60–250-keV backscattered protons on nanometric Pt films"

 

Including stiched spectra and 2D ESTAT maps</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/656</dc:identifier>
          <dc:identifier>10.14278/rodare.656</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:656</dc:identifier>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-31849</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-31848</dc:relation>
          <dc:relation>doi:10.14278/rodare.655</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>MEIS raw data and maps for publication "Stopping and straggling of 60–250-keV backscattered protons on nanometric Pt films"</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:807</identifier>
        <datestamp>2024-08-13T12:15:05Z</datestamp>
        <setSpec>user-fwi</setSpec>
        <setSpec>user-ecfunded</setSpec>
        <setSpec>user-matter</setSpec>
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      </header>
      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:contributor>von Borany, Johannes</dc:contributor>
          <dc:creator>Engelmann, Hans-Jürgen</dc:creator>
          <dc:date>2021-02-09</dc:date>
          <dc:description>Energy-filtered transmission electron microscopy (EFTEM) images of stacked Si/SiO2/Si nanopillars</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/807</dc:identifier>
          <dc:identifier>10.14278/rodare.807</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:807</dc:identifier>
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          <dc:title>Sub-20 nm multilayer nanopillar patterning for hybrid SET/CMOS integration: Figs. 1a, 1b and 5</dc:title>
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          <dc:type>image-figure</dc:type>
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        <datestamp>2024-08-12T13:24:01Z</datestamp>
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          <dc:creator>Xie, Yufang</dc:creator>
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          <dc:creator>Funk, Simon Hannes</dc:creator>
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          <dc:creator>Schwarz, Daniel</dc:creator>
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          <dc:creator>Zeng, Yu-Jia</dc:creator>
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          <dc:date>2022-04-13</dc:date>
          <dc:description>This contains a set of data that were used to generate the figures and results in the manuscripts: Tuning of Curie temperature in Mn5Ge3 films (DOI: 10.1063/5.0066717).

The compressed folders “Curie temperature in Mn5Ge3 films ” contain below data:


	RBS data
	MH data
	ZFC/FC data
	XRD data
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          <dc:title>Data Publication: Tuning of Curie temperature in Mn5Ge3 films</dc:title>
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        <identifier>oai:rodare.hzdr.de:3365</identifier>
        <datestamp>2025-03-03T14:33:35Z</datestamp>
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          <dc:creator>Echresh, Ahmad</dc:creator>
          <dc:creator>Shaikh, Mohd Saif</dc:creator>
          <dc:creator>Catuneanu, Mircea Traian</dc:creator>
          <dc:creator>Arora, Himani</dc:creator>
          <dc:creator>Zhou, Shengqiang</dc:creator>
          <dc:creator>Erbe, Artur</dc:creator>
          <dc:creator>Helm, Manfred</dc:creator>
          <dc:creator>Rebohle, Lars</dc:creator>
          <dc:creator>Jamshidi, Kambiz</dc:creator>
          <dc:creator>Berencen, Yonder</dc:creator>
          <dc:creator>Georgiev, Yordan</dc:creator>
          <dc:date>2025-01-06</dc:date>
          <dc:description>Semiconductor nanowire-based photodetectors with high sensitivity and fast photoresponse in the near-infrared wavelength range are crucial for applications in light-wave communication switches, as well as environmental and atmospheric sensing. However, to advance this field, it is essential to develop innovative fabrication techniques that improve device performance. Here, the fabrication of an axial p–n junction along single germanium nanowires (Ge NWs) and their photoresponse characterization at near-infrared wavelengths are reported. The resulting devices exhibit rectifying current–voltage characteristics with a high rectification ratio in dark conditions and operate with high sensitivity at zero bias under illumination. A high responsivity of 1.72 AW−1, a low noiseequivalent power of 5.68 × 10−11 W/√Hz, and a high-frequency response with a 3dB cut-off frequency of 2.85 GHz are determined under 850 nm laser illumination at reverse bias. The high sensitivity of the Ge NW-based photodetectors is ascribed to the radial built-in electric field, which increases the carrier lifetime. In addition, the small size of the Ge NWs results in very small capacitance, leading to very fast response. These results have significant potential for advancing high-speed and low-power photodetectors in next-generation optical communication systems and integrated optoelectronic devices.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/3365</dc:identifier>
          <dc:identifier>10.14278/rodare.3365</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:3365</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-40446</dc:relation>
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          <dc:rights>info:eu-repo/semantics/restrictedAccess</dc:rights>
          <dc:subject>germanium nanowire</dc:subject>
          <dc:subject>axial p–n junction</dc:subject>
          <dc:subject>photodetector</dc:subject>
          <dc:subject>responsivity</dc:subject>
          <dc:subject>frequency-response</dc:subject>
          <dc:subject>noise equivalent power</dc:subject>
          <dc:subject>ion implantation</dc:subject>
          <dc:subject>flash lamp annealing</dc:subject>
          <dc:title>High-performance and ultrafast single germanium nanowire photodetectors</dc:title>
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        <identifier>oai:rodare.hzdr.de:1061</identifier>
        <datestamp>2024-08-13T12:15:49Z</datestamp>
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          <dc:creator>Bejarano, Mauricio</dc:creator>
          <dc:creator>Trindade Goncalves, Francisco José</dc:creator>
          <dc:creator>Hollenbach, Michael</dc:creator>
          <dc:creator>Hache, Toni</dc:creator>
          <dc:creator>Hula, Tobias</dc:creator>
          <dc:creator>Berencen, Yonder</dc:creator>
          <dc:creator>Faßbender, Jürgen</dc:creator>
          <dc:creator>Helm, Manfred</dc:creator>
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          <dc:creator>Schultheiß, Helmut</dc:creator>
          <dc:date>2020-12-17</dc:date>
          <dc:description>We utilized the following methods to obtain the presented data: optically detected magnetic resonance (ODMR), photoluminescence spectroscopy, and micromagnetic simulations in Mumax3. The experimental data were obtained on the sample which is labeled as: "HPSI 4H-SiC 30 Magnon Q #2". On that sample we investigated magnetic ellipses, sized 8 micrometer x 2 micrometer, made of Permalloy, that lie on top of a silicon carbide substrate. The measured data for all measurements (including ALL parameters) are included in the uploaded primary data subdirectories. The uploaded data is organized in folders according to the figures in the paper. Each folder contains the experimental data, together with the MuMax3 definition files, all the possible possible scripts used for evaluation and all figures included in the paper. This is the final version with the reviewers' corrections.</dc:description>
          <dc:description>This is the final version of the manuscript's files.</dc:description>
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          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>Data for: Mapping the stray fields of a micromagnet using spin centers in SiC</dc:title>
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          <dc:type>dataset</dc:type>
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        <identifier>oai:rodare.hzdr.de:2819</identifier>
        <datestamp>2024-09-02T06:25:47Z</datestamp>
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          <dc:creator>Hollenbach, Michael</dc:creator>
          <dc:creator>Klingner, Nico</dc:creator>
          <dc:creator>Mazarov, P.</dc:creator>
          <dc:creator>Pilz, W.</dc:creator>
          <dc:creator>Nadzeyka, A.</dc:creator>
          <dc:creator>Mayer, F.</dc:creator>
          <dc:creator>Abrosimov, N. V.</dc:creator>
          <dc:creator>Bischoff, Lothar</dc:creator>
          <dc:creator>Hlawacek, Gregor</dc:creator>
          <dc:creator>Helm, Manfred</dc:creator>
          <dc:creator>Astakhov, Georgy</dc:creator>
          <dc:date>2024-04-29</dc:date>
          <dc:description>Experimenta data</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/2819</dc:identifier>
          <dc:identifier>10.14278/rodare.2819</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:2819</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-39026</dc:relation>
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          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>Single photon emitters</dc:subject>
          <dc:subject>Quantum technologies</dc:subject>
          <dc:subject>Ion implantation</dc:subject>
          <dc:subject>Silicon</dc:subject>
          <dc:title>Data publication: Programmable activation of quantum emitters in high-purity silicon with focused carbon ion beams</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
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        <identifier>oai:rodare.hzdr.de:285</identifier>
        <datestamp>2024-08-13T12:22:00Z</datestamp>
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          <dc:creator>Podlipec, Rok</dc:creator>
          <dc:date>2020-01-17</dc:date>
          <dc:description>Raw datasets and images performed on the Helium Ion Microscope for the published study with the title Photocatalytic biocidal effect of copper doped TiO2 nanotube coated surfaces under laminar flow, illuminated with UVA light on Legionella pneumophila.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/285</dc:identifier>
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          <dc:title>Photocatalytic biocidal effect of copper doped TiO2 nanotube coated surfaces under laminar flow, illuminated with UVA light on Legionella pneumophila</dc:title>
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        <identifier>oai:rodare.hzdr.de:3869</identifier>
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          <dc:description>Data publication for the journal article entitled "The power of thermoelastic harvesting of low-grade waste heat: A question of timing" 
by Bruno Neumann, Giovanna Jocobi, Ali Izadi, Andreas Henschke and Sebastian Fähler.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/3869</dc:identifier>
          <dc:identifier>10.14278/rodare.3869</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:3869</dc:identifier>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-41491</dc:relation>
          <dc:relation>doi:10.14278/rodare.3815</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>Shape Memory Alloys</dc:subject>
          <dc:subject>In-Operando</dc:subject>
          <dc:subject>Thermoelastic</dc:subject>
          <dc:subject>Waste heat</dc:subject>
          <dc:title>The power of thermoelastic harvesting of low-grade waste heat: A question of timing the heat exchange</dc:title>
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        <datestamp>2025-11-24T07:36:20Z</datestamp>
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          <dc:creator>Kentsch, Ulrich</dc:creator>
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          <dc:creator>Astakhov, Georgy</dc:creator>
          <dc:date>2025-11-19</dc:date>
          <dc:description>These dataset provides the first experimental proof of new family of color centers in Silicon Carbide which has emission in telecom band</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/4145</dc:identifier>
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          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>Data publication: Engineering chlorine-vacancy emitters in silicon carbide for telecom-band quantum technologies</dc:title>
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          <dc:type>dataset</dc:type>
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      <header>
        <identifier>oai:rodare.hzdr.de:3947</identifier>
        <datestamp>2025-09-03T12:26:38Z</datestamp>
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          <dc:creator>Salgado Cabaco, Joao</dc:creator>
          <dc:creator>Long, Fangchao</dc:creator>
          <dc:creator>Kentsch, Ulrich</dc:creator>
          <dc:creator>Potzger, Kay</dc:creator>
          <dc:creator>Zhou, Shengqiang</dc:creator>
          <dc:creator>Leyens, Christoph</dc:creator>
          <dc:creator>Lindner, Jürgen</dc:creator>
          <dc:creator>Faßbender, Jürgen</dc:creator>
          <dc:creator>Boucher, Richard</dc:creator>
          <dc:creator>Bali, Rantej</dc:creator>
          <dc:date>2025-08-26</dc:date>
          <dc:description>Data for the paper: Tuning transport properties of  conducting ceramic through point defects, published in 2025 at Journal of Alloys and Compounds.</dc:description>
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          <dc:subject>thermal lens spectroscopy</dc:subject>
          <dc:title>Exploring Morphology of Thermoplasmonic Nanoparticles to Synergize Immunotherapeutic FAP-positive Cells Sensitization and Photothermal Therapy</dc:title>
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          <dc:subject>frequency comb</dc:subject>
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          <dc:subject>nonlinear dynamics</dc:subject>
          <dc:subject>Floquet-engineering</dc:subject>
          <dc:title>Data publication: Coherent control of Floquet-engineered magnon frequency combs</dc:title>
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	The file "THzPowerMeasurement.xlsx" is manually noted THz power reading from the locking. It is used for Figs. 2(a&amp;b).
	The file "005-PCA-60V_100mW.thz" is the THz time-domain data corresponding to Fig2 (c).  
	The files "017******* to 027**********" are data corresponding to Figs 3(a&amp;b). Plots in Figs. 4(b-d) are also calculated from these data files.
	The files "003-PCA-1mm.thz", "004-PCA-withoutAperture.thz", and "005-PCA-1point2mm.thz" are data used for THz spot diameter calculation.
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          <dc:subject>Terahertz emitter</dc:subject>
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          <dc:subject>Nonlinear THz effects</dc:subject>
          <dc:title>High-field THz pulses from a GaAs photoconductive emitter for non-linear THz studies</dc:title>
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          <dc:date>2021-11-08</dc:date>
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          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>iron</dc:subject>
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          <dc:subject>ferritic-martensitic steel</dc:subject>
          <dc:subject>ion irradiation</dc:subject>
          <dc:subject>displacement damage</dc:subject>
          <dc:subject>nanoindentation</dc:subject>
          <dc:subject>irradiation hardeníng</dc:subject>
          <dc:subject>indentation size effect</dc:subject>
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          <dc:subject>SiGeSn</dc:subject>
          <dc:subject>Si1-x-yGeySnx</dc:subject>
          <dc:subject>Sn</dc:subject>
          <dc:subject>FLA</dc:subject>
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          <dc:title>Si1-x-yGeySnx alloy formation by Sn ion implantation and flash lamp annealing</dc:title>
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          <dc:description>RBS raw data for publication "High quality epitaxial Mn2Au (001) thin films grown by molecular beam epitaxy "

 

Simulation results using SINRA are included as well.</dc:description>
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          <dc:description>This thesis experimentally demonstrates four approaches of frequency control of magnetic autooscillations in spin Hall nano-oscillators (SHNOs).
The frequency can be changed in the GHZ-range by external magnetic fields as shown in this work. This approach uses large electromagnets, which is inconvenient for future applications.The nonlinear coupling between oscillator power and frequency can be used to control the latter one by changing the applied direct current to the SHNO. The frequency can be controlled over a range of several 100 MHz as demonstrated in this thesis.
The first part of the experimental chapter demonstrates the synchronization (injection-locking) between magnetic auto-oscillations and an external microwave excitation. The additionally applied microwave current generates a modulation of the effective magnetic field, which causes the interaction with the auto-oscillation. Both synchronize over a range of several 100 MHz. In this range, the auto-oscillation frequency can be controlled by the external stimulus. An increase of power and a decrease of line width is achieved in the synchronization range. This is explained by the increased coherence of the auto-oscillations. A second approach is the synchronization of auto-oscillations to an alternating magnetic field. This field is generated by a freestanding antenna, which is positioned above the SHNO.
The second part of the experimental chapter introduces a bipolar concept of SHNOs and its experimental demonstration. In contrast to conventional SHNOs, bipolar SHNOs generate autooscillations for both direct current polarities and both directions of the external magnetic field. This is achieved by combining two ferromagnetic layers in an SHNO. The combination of two different ferromagnetic materials is used to switch between two frequency ranges in dependence of the direct current polarity since it defines the layer showing auto-oscillations. This approach can be used to change the frequency in the GHz-range by switching the direct current polarity.</dc:description>
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          <dc:title>Frequency control of auto-oscillations of the magnetization in spin Hall nano-oscillators</dc:title>
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          <dc:subject>MAX phases</dc:subject>
          <dc:subject>Defects</dc:subject>
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          <dc:subject>solid phase epitaxy</dc:subject>
          <dc:subject>flash lamp annealing</dc:subject>
          <dc:subject>ferromagnetic film</dc:subject>
          <dc:subject>spintronic</dc:subject>
          <dc:subject>fabrication parameter</dc:subject>
          <dc:subject>structural property</dc:subject>
          <dc:title>Data publication: Influence of fabrication parameters on the magnetic and structural properties of Mn5Ge3</dc:title>
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          <dc:creator>Eggert, Benedikt</dc:creator>
          <dc:creator>Anwar, Shadab Md.</dc:creator>
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        <datestamp>2025-10-17T05:48:11Z</datestamp>
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          <dc:creator>Heins, Christopher</dc:creator>
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          <dc:creator>Kim, J.-V.</dc:creator>
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          <dc:description>This data publication contains the data for our publication "Self-induced Floquet magnons in magnetic vortices". The dataset is structured in folders corresponding to the different figures in the paper. Folder Fig-2 contains the simulated and experimental spectra measured with Brillouin-light-scattering microscopy. The experimental spectra contain the data integrated for the measurement positions described in the methods section. Folder Fig-4 contains the evaluated numerical data presented in the corresponding panels. Folder Fig-5 contains the experimental spectra measured with Brillouin-light-scattering microscopy as a function of power and time. Folder FIG-S1 contains the log file for the sample fabrication and scanning electron microscope (SEM) images. Important note for the SEM images: When acquiring the SEM images, the calibration of the Raith150 tool was off momentarily. This resulted in recording the wrong scale bars with the images. The structure dimensions are known from the design file and were confirmed at another time after adjusting the calibration. Folder S2 contains the BLS spectra for different frequencies of the gyration excitation. Folder S4 and S5 contain the simulated spectra for the respective shown panels. Folder S6 contains the power sweeps and time trace BLS data. Fig S9 contains the shown BLS data.</dc:description>
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          <dc:subject>magnetic vortex</dc:subject>
          <dc:subject>magnon</dc:subject>
          <dc:subject>Floquet states</dc:subject>
          <dc:subject>nonlinearity</dc:subject>
          <dc:title>Data publication: Self-induced Floquet magnons in magnetic vortices</dc:title>
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          <dc:creator>Lokamani, Mani</dc:creator>
          <dc:creator>Bihlmayer, Gustav</dc:creator>
          <dc:creator>Michalicek, Gregor</dc:creator>
          <dc:creator>Wortmann, Daniel</dc:creator>
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          <dc:creator>Friedrich, Rico</dc:creator>
          <dc:date>2026-04-09</dc:date>
          <dc:description>This dataset includes the primary research data for the publication "Towards Non-van der Waals 2D Topological Insulators"</dc:description>
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          <dc:title>Data publication: Towards Non-van der Waals 2D Topological Insulators</dc:title>
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        <datestamp>2026-06-02T09:35:49Z</datestamp>
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          <dc:contributor>Nihei, Anastasiia</dc:contributor>
          <dc:contributor>Barnowsky, Tom</dc:contributor>
          <dc:contributor>Friedrich, Rico</dc:contributor>
          <dc:creator>Nihei, Anastasiia</dc:creator>
          <dc:creator>Barnowsky, Tom</dc:creator>
          <dc:creator>Friedrich, Rico</dc:creator>
          <dc:date>2025-03-10</dc:date>
          <dc:description>This dataset includes the primary research data for the publication "Non-van der Waals Heterostructures" by A. Nihei, T. Barnowsky, and R. Friedrich. The dataset encompasses all heterostructure calculations performed in the study.

Repository Structure

The dataset is systematically organized into four primary directories:

Diamagnetic_diamagnetic/ – Contains computational results for heterostructures composed of two diamagnetic components.
Diamagnetic_magnetic/ – Contains computational results for heterostructures comprising one diamagnetic and one magnetic component.
Magnetic_magnetic/ – Contains computational results for systems consisting of two magnetic components.
Supplementary/ - Contains additional computations that complement the main heterostructure datasets:

    - Convergence_Test/ - Contains convergence tests with respect to k-point density. It includes calculations for structural relaxation (relax_convergence) and for static and band structure evaluations (bands_dos_convergence). The folder naming convention reflects the k-point sampling in the xy-plane: for instance, a folder labeled 3 corresponds to a 3×3×1 k-point grid.

    - HSE06/ - Contains computational results of electronic band structure and density of states (BANDS_DOS) or only static runs (SCF_Only) for heterostructures and single layers calculated with the HSE06 functional.
    - Reference/ – Contains computational results for graphene homobilayer systems.
    - Shifted_Fe2O3_MgTiO3/ - Contains computational results for 9×9 grid of calculations for possible shifts in the Fe2O3_MgTiO3 heterostructure.
    - Strain_Effect/ - Contains computational results for single layers with a cell strained as in the HS, but relaxed atomic structure.


Naming Conventions

Each heterostructure is identified by a systematic naming scheme, structured as follows:

Component1_Component2_NumberOfAtoms_TwistAngle_Strain_Functional

, where

NumberOfAtoms - Total number of atoms in the unit cell
TwistAngle – Twist angle (degrees) between 2D components
Strain – Initial strain applied to individual components in the resulting heterostructure
Functional – Exchange-correlation functional and theoretical level employed (plain PBE(+U), PBE(+U)+D3, SCAN+rVV10)

Each shifted Fe2O3_MgTiO3 heterostructure is identified by a systematic naming scheme, structured as follows:

Shift_x_y

, where inner Fe cation is shifted by (x;y) grid points from the origin (the shifts in x and y directions are changed by the increment of 1/9 of the lattice constant).


Computational Data Organization

Structural relaxation steps and convergence results are stored within the main directory named according to the previously defined convention for the heterostructure.
Each system directory contains the following subdirectories:

BANDS_DOS/ – Computed electronic band structures and density of states (DOS). Only density of states (DOS) is available for SCAN+rVV10 and some PBE(+U)+D3 calculations.
density_difference/ (if present) – Charge density difference calculations, where charge densities of static calculations of individual systems were subtracted from the heterostructure charge density.
PARCHG/ (if present) – Partial charge density calculations for specified bands.
PHONONS/ (if present) - Phonon band structure data stored in JSON format.


Additional Considerations

Large-scale systems – Calculations for extended systems with up to 140 atoms are included.

Fe2O3_MgTiO3 twisted systems – The initial aflow.in (260 atoms) files and computational results (140 atoms) for these large systems are located in the Fe2O3_MgTiO3 directory under Diamagnetic_magnetic/.


Methodology

The monolayer structures used in this study originate from two previous publications [1,2].

The primary data for this systems can be obtained via the following links:

https://doi.org/10.14278/rodare.1421
https://doi.org/10.14278/rodare.1852

All heterostructures are generated by a custom “hetbuilder” implementation of the coincidence lattice method within the AFLOW software for materials design [3].  The AFLOW internal automatic determination of k-point sets is used in conjunction with an extension for 2D systems enabling only in-plane sampling. Further information will be available in the publication [4].

Most calculations were carried out using the AFLOW framework, which automated the execution of VASP calculations [5-9]. Partial charge density and HSE06 calculations were executed exclusively with VASP, independent of AFLOW. HSE06 runs were preformed using the pre-relaxed PBE(+U) structures. Shifted Fe2O3_MgTiO3 heterostructures were only vertically relaxed via selective dynamics.

The dataset enables reproducibility of the results presented in the associated publication.</dc:description>
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          <dc:subject>2D materials</dc:subject>
          <dc:subject>non-van der Waals compounds</dc:subject>
          <dc:subject>heterostructures</dc:subject>
          <dc:subject>interface design</dc:subject>
          <dc:subject>magnetism</dc:subject>
          <dc:subject>data-driven research</dc:subject>
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          <dc:subject>high-throughput computing</dc:subject>
          <dc:title>Data publication: Non-van der Waals Heterostructures</dc:title>
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          <dc:creator>Lokamani, Mani</dc:creator>
          <dc:date>2026-01-17</dc:date>
          <dc:description>Configurations and Input files for DFTB simulations</dc:description>
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        <datestamp>2024-08-12T13:24:45Z</datestamp>
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          <dc:creator>Froehlich, Michaela</dc:creator>
          <dc:creator>Göbel, K.</dc:creator>
          <dc:creator>Al-Khasawneh, K.</dc:creator>
          <dc:creator>Koll, Dominik</dc:creator>
          <dc:creator>Lachner, Johannes</dc:creator>
          <dc:creator>Merchel, Silke</dc:creator>
          <dc:creator>Pavetich, Stefan</dc:creator>
          <dc:creator>Reich, M.</dc:creator>
          <dc:creator>Rugel, G.</dc:creator>
          <dc:creator>Thomas, B.</dc:creator>
          <dc:creator>Tims, S. G.</dc:creator>
          <dc:creator>Volknandt, M.</dc:creator>
          <dc:creator>Weigand, M.</dc:creator>
          <dc:date>2022-03-03</dc:date>
          <dc:description>Typical neutron energies for the astrophysical s-process follow the Maxwell-Boltzmann distribution in the keV energy range. Neutron capture cross sections highly relevant for modelling the s-process can be experimentally determined by using the Time-of-Flight (ToF) method [1] or by the activation technique. If the reaction product is a long-lived radionuclide (t1/2 ~ yr -100 Myr), the cross section can be determined by activation with a quasi-stellar neutron distribution (typically kT = 25 keV) and a subsequent accelerator mass spectrometry (AMS) measurement of the reaction product [2]. Comparison of a number of such neutron capture cross sections shows a systematic bias, i.e. AMS data being lower than the ToF data [3, 4].

To investigate this discrepancy, we repeated experiments for two reactions that allow for highly precise AMS data: Maxwellian-averaged cross sections for the reactions 54Fe(n,γ)55Fe and 35Cl(n,γ)36Cl were investigated with dedicated activations at the Frankfurt Neutron Source (FRANZ) in Germany [5] and AMS measurements at two independent facilities. Analogously to previous activations, a quasi-stellar neutron spectrum of kT = 25 keV was produced via the 7Li(p,n) reaction, but at a different neutron-producing facility. Furthermore, to complement existing ToF and AMS data, an additional neutron activation of 54Fe and 35Cl at a proton energy of 2 MeV was performed, yielding data in the not-yet explored kT = 90 keV region.

The irradiated metallic Fe foil and NaCl pellet (both of natural isotopic composition) were chemically processed and converted to AMS targets (Fe2O3 and AgCl) together with non-irradiated blanks. The subsequent AMS measurements of both radionuclides, 36Cl and 55Fe, were performed at two complementary AMS facilities, the Heavy Ion Accelerator Facility (HIAF) at the Australian National University [6] and at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) in Germany [7]. AMS allows a direct measurement of the 55Fe/54Fe and 36Cl/35Cl conversion ratios that result from the irradiation. The cross section is then deduced from the isotope ratio and the neutron fluence, which is determined using Au monitor foils.

The new experiment was designed to produce highly accurate data and, owing to the two independent AMS measurements, it minimizes unrecognized sources of uncertainties in the AMS technique. The new preliminary data obtained in this work seem to confirm the previous AMS results. Consequently, the systematic discrepancy between AMS and ToF data remains unresolved.

[1] Guber, K.H., et al., Phys. Rev. C 65, 058801 (2002).
[2] Györky, Gy., et al., Eur. Phys. J. A 55, 41 (2019).
[3] Capote, R., et al., Nucl. Data Sheets 163 (2020): 191.
[4] Slavkovská, Z., et al., EPJ Web Conf. Vol. 232, p.02005, EDP Sciences, 2020.
[5] Reifarth, R., et al., Publ. Astron. Soc. Aust. 26.3 (2009): 255.
[6] Fifield, L.K., et al. Nucl. Instr. Meth. B: 268 (2010): 858.
[7] Rugel, G., et al., Nucl. Instr. and Meth. in Phys. Res. B 370 (2016) 94.</dc:description>
          <dc:description>for RADIATE</dc:description>
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          <dc:relation>info:eu-repo/grantAgreement/EC/H2020/824096/</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-34339</dc:relation>
          <dc:relation>doi:10.14278/rodare.1466</dc:relation>
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          <dc:rights>info:eu-repo/semantics/restrictedAccess</dc:rights>
          <dc:subject>AMS</dc:subject>
          <dc:title>Reaction cross sections 54Fe(n,γ)55Fe and 35Cl(n,γ)36Cl at keV neutron energies investigated by Accelerator Mass Spectrometry</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
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        <identifier>oai:rodare.hzdr.de:2168</identifier>
        <datestamp>2024-08-12T09:46:07Z</datestamp>
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        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Schaber, Jana</dc:creator>
          <dc:creator>Xiang, Rong</dc:creator>
          <dc:creator>Arnold, André</dc:creator>
          <dc:creator>Ryzhov, Anton</dc:creator>
          <dc:creator>Teichert, Jochen</dc:creator>
          <dc:creator>Murcek, Petr</dc:creator>
          <dc:creator>Zwartek, Paul</dc:creator>
          <dc:creator>Ma, Shuai</dc:creator>
          <dc:creator>Michel, Peter</dc:creator>
          <dc:date>2023-02-23</dc:date>
          <dc:description>This folder "XPS data" contains original and evaluated XPS data (.vms) on a p-GaN sample which was treated at various temperatures and underwent Ar+ irradiation.

Furthermore, the folder "REM Images" contains REM images (.tif) and EDX data (.xlsx) on the used excessively treated sample.

All images that are published in the main manuscript are collected as .tif files in the folder "images".</dc:description>
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          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>damage effects</dc:subject>
          <dc:subject>sputtering damage</dc:subject>
          <dc:subject>surface cleaning</dc:subject>
          <dc:subject>p-GaN</dc:subject>
          <dc:subject>photocathode</dc:subject>
          <dc:title>Data to Impact on various cleaning procedures on p-GaN surfaces</dc:title>
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      <header>
        <identifier>oai:rodare.hzdr.de:4120</identifier>
        <datestamp>2025-11-14T08:56:48Z</datestamp>
        <setSpec>software</setSpec>
        <setSpec>software</setSpec>
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          <dc:creator>Sequeira, Miguel</dc:creator>
          <dc:creator>Erb, Denise</dc:creator>
          <dc:creator>Facsko, Stefan</dc:creator>
          <dc:date>2025-11-13</dc:date>
          <dc:description>This repository contains the experimental AFM datasets and the PINN-ShiftNet code used in the manuscript Predicting Instability-Driven Dynamics from Sparse Measurements.

This repository is also in https://github.com/m-sequeira/PINN-ShiftNet

├─ PINN_ShiftNet/  
│  └─ (code files)  
├─ data/  
│  └─ (raw and png experimental AFM data)  
├─ README.md  </dc:description>
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          <dc:relation>doi:10.14278/rodare.4119</dc:relation>
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          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>Predicting instability-driven dynamics from sparse measurements: Code and Data</dc:title>
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          <dc:type>software</dc:type>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:3818</identifier>
        <datestamp>2025-12-11T06:26:55Z</datestamp>
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        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Cherkouk, Charaf</dc:creator>
          <dc:creator>Ferch, Marc</dc:creator>
          <dc:creator>Hahn, Robert</dc:creator>
          <dc:creator>Weigel, Tina</dc:creator>
          <dc:creator>Köhler, Thomas</dc:creator>
          <dc:creator>Ludt, Christian</dc:creator>
          <dc:creator>Stöcker, Hartmut</dc:creator>
          <dc:creator>Delan, Annekatrin</dc:creator>
          <dc:creator>Munnik, Frans</dc:creator>
          <dc:creator>Kentsch, Ulrich</dc:creator>
          <dc:creator>Folgner, Christoph</dc:creator>
          <dc:creator>Schumann, Thomas</dc:creator>
          <dc:creator>Begeza, Viktor</dc:creator>
          <dc:creator>Cheng, Yu</dc:creator>
          <dc:creator>Zhou, Shengqiang</dc:creator>
          <dc:creator>Rebohle, Lars</dc:creator>
          <dc:date>2025-06-18</dc:date>
          <dc:description>Satz von Daten der zyklierung von Batteriezellen als Excel- Datei, wie in der vorliegenden Publikation dargestellt und beschrieben sind.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/3818</dc:identifier>
          <dc:identifier>10.14278/rodare.3818</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:3818</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-41492</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-41463</dc:relation>
          <dc:relation>doi:10.14278/rodare.3817</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/closedAccess</dc:rights>
          <dc:subject>lithium ion batteries</dc:subject>
          <dc:subject>Prelithiation</dc:subject>
          <dc:subject>silicon anode</dc:subject>
          <dc:subject>ion implantation</dc:subject>
          <dc:title>Data publication: Prelithiation of silicon thin film anodes using ion implantation for lithium ion batteries</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
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    <record>
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        <identifier>oai:rodare.hzdr.de:2751</identifier>
        <datestamp>2025-04-01T12:38:17Z</datestamp>
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          <dc:creator>Barnowsky, Tom</dc:creator>
          <dc:creator>Curtarolo, Stefano</dc:creator>
          <dc:creator>Krasheninnikov, Arkady</dc:creator>
          <dc:creator>Heine, Thomas</dc:creator>
          <dc:creator>Friedrich, Rico</dc:creator>
          <dc:date>2024-01-16</dc:date>
          <dc:description>This dataset includes the primary research data for the publication "Magnetic State Control of Non-van der Waals 2D Materials by Hydrogenation".</dc:description>
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          <dc:identifier>10.14278/rodare.2751</dc:identifier>
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          <dc:language>eng</dc:language>
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          <dc:relation>url:https://www.hzdr.de/publications/Publ-37645</dc:relation>
          <dc:relation>doi:10.1021/acs.nanolett.3c04777</dc:relation>
          <dc:relation>doi:10.14278/rodare.2496</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/crc1415</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>2D materials</dc:subject>
          <dc:subject>magnetism</dc:subject>
          <dc:subject>non-van der Waals compounds</dc:subject>
          <dc:subject>passivation</dc:subject>
          <dc:subject>data-driven research</dc:subject>
          <dc:subject>computational materials science</dc:subject>
          <dc:subject>high-throughput computing</dc:subject>
          <dc:title>Data publication: Magnetic State Control of Non-van der Waals 2D Materials by Hydrogenation</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:4028</identifier>
        <datestamp>2025-10-07T06:22:22Z</datestamp>
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      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Xiong, Zeling</dc:creator>
          <dc:creator>Heins, Christopher</dc:creator>
          <dc:creator>Devolder, Thibaut</dc:creator>
          <dc:creator>Kammerbauer, Fabian</dc:creator>
          <dc:creator>Kläui, Mathias</dc:creator>
          <dc:creator>Faßbender, Jürgen</dc:creator>
          <dc:creator>Schultheiß, Helmut</dc:creator>
          <dc:creator>Schultheiß, Katrin</dc:creator>
          <dc:date>2025-10-02</dc:date>
          <dc:description>Python scripts for data analysis &amp; Data files saved from experiments</dc:description>
          <dc:description>Can ask for other forms of file if needed.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/4028</dc:identifier>
          <dc:identifier>10.14278/rodare.4028</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:4028</dc:identifier>
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          <dc:relation>url:https://www.hzdr.de/publications/Publ-41929</dc:relation>
          <dc:relation>doi:10.14278/rodare.4027</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/hzdr</dc:relation>
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          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>magnon</dc:subject>
          <dc:subject>spin wave</dc:subject>
          <dc:subject>nonlinearity</dc:subject>
          <dc:subject>reservoir computing</dc:subject>
          <dc:subject>time-series prediction</dc:subject>
          <dc:subject>Brillouin light scattering</dc:subject>
          <dc:title>Data publication: Predicting the Future with Magnons</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:2612</identifier>
        <datestamp>2024-08-12T09:36:13Z</datestamp>
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      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Steuer, Oliver</dc:creator>
          <dc:creator>Liedke, Maciej Oskar</dc:creator>
          <dc:creator>Butterling, Maik</dc:creator>
          <dc:creator>Schwarz, D.</dc:creator>
          <dc:creator>Schulze, J.</dc:creator>
          <dc:creator>Li, Z.</dc:creator>
          <dc:creator>Wagner, Andreas</dc:creator>
          <dc:creator>Fischer, I. A.</dc:creator>
          <dc:creator>Hübner, René</dc:creator>
          <dc:creator>Zhou, Shengqiang</dc:creator>
          <dc:creator>Helm, Manfred</dc:creator>
          <dc:creator>Cuniberti, G.</dc:creator>
          <dc:creator>Georgiev, Yordan</dc:creator>
          <dc:creator>Prucnal, Slawomir</dc:creator>
          <dc:date>2023-12-12</dc:date>
          <dc:description>Rohdaten und analysedaten der Publikation</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/2612</dc:identifier>
          <dc:identifier>10.14278/rodare.2612</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:2612</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-2-58</dc:relation>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>doi:10.1088/1361-648X/ad0a10</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-37862</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-38017</dc:relation>
          <dc:relation>doi:10.14278/rodare.2611</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/elbe</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/restrictedAccess</dc:rights>
          <dc:title>Evolution of point defects in pulsed-laser-melted Ge1-xSnx probed by positron annihilation lifetime spectroscopy</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:3939</identifier>
        <datestamp>2025-08-20T08:15:00Z</datestamp>
        <setSpec>openaire_data</setSpec>
        <setSpec>user-rodare</setSpec>
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      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Anwar, M. S.</dc:creator>
          <dc:creator>Zelenina, I.</dc:creator>
          <dc:creator>Sobieszczyk, P.</dc:creator>
          <dc:creator>Hlawacek, Gregor</dc:creator>
          <dc:creator>Tveitstøl, K.</dc:creator>
          <dc:creator>Potzger, Kay</dc:creator>
          <dc:creator>Faßbender, Jürgen</dc:creator>
          <dc:creator>Hellwig, Olav</dc:creator>
          <dc:creator>Lindner, Jürgen</dc:creator>
          <dc:creator>Krupiński, M.</dc:creator>
          <dc:creator>Nord, M.</dc:creator>
          <dc:creator>Bali, Rantej</dc:creator>
          <dc:date>2025-08-19</dc:date>
          <dc:description>Datasets of transmission electron microscopy based experiments, micromagnetic simulations, magnetic force microscopy, ImageJ output files as well as process files from the He/Ne-ion microscope.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/3939</dc:identifier>
          <dc:identifier>10.14278/rodare.3939</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:3939</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-41716</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-41714</dc:relation>
          <dc:relation>doi:10.14278/rodare.3938</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>differential phase contrast</dc:subject>
          <dc:subject>magnetic force microscopy</dc:subject>
          <dc:subject>He/Ne ion microscopy</dc:subject>
          <dc:subject>scanning precession electron diffraction</dc:subject>
          <dc:subject>micromagnetic simulations</dc:subject>
          <dc:title>Data publication: Confinement driven spin-texture evolution in directly written nanomagnets</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
      </metadata>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:514</identifier>
        <datestamp>2024-08-13T12:20:54Z</datestamp>
        <setSpec>user-rodare</setSpec>
        <setSpec>user-fwi</setSpec>
        <setSpec>user-ibc</setSpec>
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      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:contributor>Podlipec, Rok</dc:contributor>
          <dc:contributor>Hlawacek, Gregor</dc:contributor>
          <dc:contributor>Klingner, Nico</dc:contributor>
          <dc:creator>Podlipec, Roc</dc:creator>
          <dc:date>2020-09-08</dc:date>
          <dc:description>Correlative optical (STED) and ion (HIM) high-resolution images of lung epithelial cells interacting with metal oxide nanoparticles where the mechanism of material cycling and quarantining is studied.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/514</dc:identifier>
          <dc:identifier>10.14278/rodare.514</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:514</dc:identifier>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-31504</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-31505</dc:relation>
          <dc:relation>doi:10.14278/rodare.513</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>Chronic Inflammation Prediction for Inhaled Particles, the Impact of Material Cycling and Quarantining in the Lung Epithelium</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>image-photo</dc:type>
        </oai_dc:dc>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:4374</identifier>
        <datestamp>2026-06-26T09:46:49Z</datestamp>
        <setSpec>openaire_data</setSpec>
        <setSpec>openaire_data</setSpec>
        <setSpec>user-energy</setSpec>
        <setSpec>user-fwi</setSpec>
        <setSpec>user-rodare</setSpec>
        <setSpec>user-ibc</setSpec>
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      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Techert, Gerda</dc:creator>
          <dc:creator>Kretzschmar, Jerome</dc:creator>
          <dc:creator>Worbs, Andreas</dc:creator>
          <dc:creator>Steudtner, Robin</dc:creator>
          <dc:creator>Bloß, Christoph</dc:creator>
          <dc:creator>Boelens, Peter</dc:creator>
          <dc:creator>Drobot, Björn</dc:creator>
          <dc:creator>Hübner, René</dc:creator>
          <dc:creator>Schönberger, Nora</dc:creator>
          <dc:creator>Pollmann, Katrin</dc:creator>
          <dc:creator>Lederer, Franziska</dc:creator>
          <dc:date>2026-01-14</dc:date>
          <dc:description>Electronic waste and wastewater from mining, industry, etc. are valuable secondary sources of strategic high-tech metals like rare earth elements (REEs). Due to low concentrations of REEs, their recovery is challenging. Current separation processes have high energy consumption and use large amounts of toxic or expensive reagents, resulting in contaminated water and its costly reprocessing. Biomolecules, as environmentally friendly alternatives, are able to overcome these economic and ecological issues. Metal-binding peptides are convincing not only because of their high selectivity and stability under various conditions. In case of biobased production, they are also “renewable” resources and are neither toxic nor difficult to degrade at the process end. Here, we successfully utilized phage surface display (PSD) to screen for peptides with high affinity for REEs. The selected peptide GC22 (CEPDLWIDRFWC), identified by PSD in combination with next-generation sequencing, revealed the ability to precipitate lanthanide and yttrium ions from aqueous solutions in large quantities (&gt; 60 %). It largely favors all REE ions over other commonly occurring metal ions in wastewater. The amorphous REE-GC22-precipitate is characterized by curled and spherical structures. Nuclear magnetic resonance spectroscopy revealed that in dimethyl sulfoxide Arg9 and Cys12 are most likely involved in metal binding. Reversibility of binding and thus regeneration of the peptide was demonstrated, enabling its potential use for multiple extraction cycles. GC22 thus offers a sustainable, cost-effective, and environmentally friendly alternative for future REE-recovery from low-REE-concentration wastewaters and e-waste leachates.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/4374</dc:identifier>
          <dc:identifier>10.14278/rodare.4374</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:4374</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-42690</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-42769</dc:relation>
          <dc:relation>doi:10.14278/rodare.4373</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/energy</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>rare earth elements</dc:subject>
          <dc:subject>lanthanide recovery</dc:subject>
          <dc:subject>phage surface display</dc:subject>
          <dc:subject>peptides</dc:subject>
          <dc:subject>precipitation</dc:subject>
          <dc:subject>biomineralization</dc:subject>
          <dc:subject>recycling</dc:subject>
          <dc:title>Research Data: Recovery of rare earth elements by peptide-induced lanthanide ion precipitation</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:4731</identifier>
        <datestamp>2026-06-26T10:02:15Z</datestamp>
        <setSpec>openaire_data</setSpec>
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        <setSpec>user-fwi</setSpec>
        <setSpec>user-ibc</setSpec>
        <setSpec>user-rodare</setSpec>
      </header>
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          <dc:creator>Techert, Gerda</dc:creator>
          <dc:creator>Kretzschmar, Jerome</dc:creator>
          <dc:creator>Worbs, Andreas</dc:creator>
          <dc:creator>Steudtner, Robin</dc:creator>
          <dc:creator>Bloß, Christoph</dc:creator>
          <dc:creator>Boelens, Peter</dc:creator>
          <dc:creator>Drobot, Björn</dc:creator>
          <dc:creator>Hübner, René</dc:creator>
          <dc:creator>Schönberger, Nora</dc:creator>
          <dc:creator>Pollmann, Katrin</dc:creator>
          <dc:creator>Lederer, Franziska</dc:creator>
          <dc:date>2026-06-24</dc:date>
          <dc:description>Electronic waste and wastewater from mining, industry, etc. are valuable secondary sources of strategic high-tech metals like rare earth elements (REEs). Due to low concentrations of REEs, their recovery is challenging. Current separation processes have high energy consumption and use large amounts of toxic or expensive reagents, resulting in contaminated water and its costly reprocessing. Biomolecules, as environmentally friendly alternatives, are able to overcome these economic and ecological issues. Metal-binding peptides are convincing not only because of their high selectivity and stability under various conditions. In case of biobased production, they are also “renewable” resources and are neither toxic nor difficult to degrade at the process end. Here, we successfully utilized phage surface display (PSD) to screen for peptides with high affinity for REEs. The selected peptide GC22 (CEPDLWIDRFWC), identified by PSD in combination with next-generation sequencing, revealed the ability to precipitate lanthanide and yttrium ions from aqueous solutions in large quantities (&gt; 60 %). It largely favors all REE ions over other commonly occurring metal ions in wastewater. The amorphous REE-GC22-precipitate is characterized by curled and spherical structures. Nuclear magnetic resonance spectroscopy revealed that in dimethyl sulfoxide Arg9 and Cys12 are most likely involved in metal binding. Reversibility of binding and thus regeneration of the peptide was demonstrated, enabling its potential use for multiple extraction cycles. GC22 thus offers a sustainable, cost-effective, and environmentally friendly alternative for future REE-recovery from low-REE-concentration wastewaters and e-waste leachates.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/4731</dc:identifier>
          <dc:identifier>10.14278/rodare.4731</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:4731</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-42690</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-42769</dc:relation>
          <dc:relation>doi:10.14278/rodare.4373</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/energy</dc:relation>
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          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>rare earth elements</dc:subject>
          <dc:subject>lanthanide recovery</dc:subject>
          <dc:subject>phage surface display</dc:subject>
          <dc:subject>peptides</dc:subject>
          <dc:subject>precipitation</dc:subject>
          <dc:subject>biomineralization</dc:subject>
          <dc:subject>recycling</dc:subject>
          <dc:title>Research Data: Recovery of rare earth elements by peptide-induced lanthanide ion precipitation</dc:title>
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          <dc:type>dataset</dc:type>
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        <identifier>oai:rodare.hzdr.de:1858</identifier>
        <datestamp>2024-08-12T09:53:02Z</datestamp>
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          <dc:creator>Nichterwitz, M.</dc:creator>
          <dc:creator>Duschek, K.</dc:creator>
          <dc:creator>Zehner, J.</dc:creator>
          <dc:creator>Oswald, S.</dc:creator>
          <dc:creator>Heller, René</dc:creator>
          <dc:creator>Leistner, K.</dc:creator>
          <dc:date>2022-10-05</dc:date>
          <dc:description>All RBS Data from measurements with both standard RBS as well as liquid cell RBS, including Simulation files in SIMNRA data format</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/1858</dc:identifier>
          <dc:identifier>10.14278/rodare.1858</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:1858</dc:identifier>
          <dc:relation>doi:10.1016/j.electacta.2022.140170</dc:relation>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-35228</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-35230</dc:relation>
          <dc:relation>doi:10.14278/rodare.1857</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>Electrodeposition</dc:subject>
          <dc:subject>sulfate electrolyte</dc:subject>
          <dc:subject>electro chemistry</dc:subject>
          <dc:subject>Rutherford backscattering</dc:subject>
          <dc:subject>iron oxide</dc:subject>
          <dc:subject>nano structures</dc:subject>
          <dc:subject>magnetic properties</dc:subject>
          <dc:title>Data publication: Stabilization of nanoscale iron films by self-terminated electrodeposition in sulfate electrolyte</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
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        <identifier>oai:rodare.hzdr.de:1040</identifier>
        <datestamp>2024-08-13T12:12:37Z</datestamp>
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          <dc:creator>Bhat, V. J.</dc:creator>
          <dc:creator>Vegesna, S. V.</dc:creator>
          <dc:creator>Kiani, M.</dc:creator>
          <dc:creator>Zhao, X.</dc:creator>
          <dc:creator>Blaschke, D.</dc:creator>
          <dc:creator>Du, N.</dc:creator>
          <dc:creator>Vogel, M.</dc:creator>
          <dc:creator>Kluge, S.</dc:creator>
          <dc:creator>Raff, J.</dc:creator>
          <dc:creator>Hubner, U.</dc:creator>
          <dc:creator>Skorupa, I.</dc:creator>
          <dc:creator>Rebohle, L.</dc:creator>
          <dc:creator>Schmidt, H.</dc:creator>
          <dc:date>2021-06-23</dc:date>
          <dc:description>Der Datensatz umfasst mikroskopische Bilder und Fotos zur Bestimmung der Zelldichte sowie lebender und toter Zellen inklusive Berechnungen, Protokolle und Auswertungen dazu.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/1040</dc:identifier>
          <dc:identifier>10.14278/rodare.1040</dc:identifier>
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          <dc:language>deu</dc:language>
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          <dc:relation>url:https://www.hzdr.de/publications/Publ-32799</dc:relation>
          <dc:relation>doi:10.14278/rodare.1039</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>Cell viability</dc:subject>
          <dc:subject>Dead bacterial cells</dc:subject>
          <dc:subject>Dead bacterial cells</dc:subject>
          <dc:subject>Impedance biochips</dc:subject>
          <dc:subject>Live bacterial cells</dc:subject>
          <dc:subject>Lysinibacillus sphaericus</dc:subject>
          <dc:subject>Membrane potential</dc:subject>
          <dc:title>Data publication: Detecting bacterial cell viability in few μl solutions from impedance measurements on silicon‐based biochips</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
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        <identifier>oai:rodare.hzdr.de:3340</identifier>
        <datestamp>2025-10-17T05:48:11Z</datestamp>
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          <dc:creator>Heins, Christopher</dc:creator>
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          <dc:creator>Kim, J.-V.</dc:creator>
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          <dc:creator>Mentink, J. H.</dc:creator>
          <dc:creator>Kakay, Attila</dc:creator>
          <dc:creator>Faßbender, Jürgen</dc:creator>
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          <dc:date>2024-12-16</dc:date>
          <dc:description>This data publication contains the data for our publication "Self-induced Floquet magnons in magnetic vortices". The dataset is structured in folders corresponding to the different figures in the paper. Folder Fig-2 contains the simulated spectra and the experimental spectra measured with Brillouin-light-scattering microscopy. The experimental spectra contain the data integrated for the measurement positions described in the methods section. Folder Fig-4 contains the evaluated numerical data presented in the corresponding panels. The raw data generated with micromagnetic simulations is too large for this dataset and is available upon request by the authors. Folder Fig-5 contains the experimental spectra measured with Brillouin-light-scattering microscopy as a function of power and time. Folder FIG-S1 contains the log file for the sample fabrication and scanning electron microscope (SEM) images. Important note for the SEM images: When acquiring the SEM images, the calibration of the Raith150 tool was off momentarily. This resulted in recording wrong scale bars with the images. The structure dimensions are known from the design file and were confirmed at another time after adjusting the calibration.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/3340</dc:identifier>
          <dc:identifier>10.14278/rodare.3340</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:3340</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-40242</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-39542</dc:relation>
          <dc:relation>doi:10.14278/rodare.3339</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>magnetic vortex</dc:subject>
          <dc:subject>magnon</dc:subject>
          <dc:subject>Floquet states</dc:subject>
          <dc:subject>nonlinearity</dc:subject>
          <dc:title>Data publication: Self-induced Floquet magnons in magnetic vortices</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
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        <identifier>oai:rodare.hzdr.de:844</identifier>
        <datestamp>2024-08-13T12:14:35Z</datestamp>
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          <dc:creator>Creutzburg, Sascha</dc:creator>
          <dc:creator>Hübner, René</dc:creator>
          <dc:creator>Facsko, Stefan</dc:creator>
          <dc:date>2021-03-10</dc:date>
          <dc:description>The depository contains STEM images, experimental data from charge exchange measurements and data from charge exchange simulations.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/844</dc:identifier>
          <dc:identifier>10.14278/rodare.844</dc:identifier>
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          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/closedAccess</dc:rights>
          <dc:title>Research data "Fluorination of graphene leads to susceptibility for nanopore formation by highly charged ion impact"</dc:title>
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        <identifier>oai:rodare.hzdr.de:1540</identifier>
        <datestamp>2024-08-12T13:24:23Z</datestamp>
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          <dc:creator>Klingner, Nico</dc:creator>
          <dc:creator>Heinig, Karl-Heinz</dc:creator>
          <dc:creator>Tucholski, David</dc:creator>
          <dc:creator>Möller, Wolfhard</dc:creator>
          <dc:creator>Hübner, René</dc:creator>
          <dc:creator>Bischoff, Lothar</dc:creator>
          <dc:creator>Hlawacek, Gregor</dc:creator>
          <dc:creator>Facsko, Stefan</dc:creator>
          <dc:date>2022-04-14</dc:date>
          <dc:description>Raw data for the publication: "Epitaxial lateral overgrowth of tin spheres driven and directly observed by helium ion microscopy". It contains helium ion microscopy, transmission electron microscopy, scanning electron microscopy as well as gallium focused ion microscopy images and XPS data. It shows how the irradiation of tin spheres with keV He ions causes epitaxial lateral overgrowth.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/1540</dc:identifier>
          <dc:identifier>10.14278/rodare.1540</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:1540</dc:identifier>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-34525</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-34526</dc:relation>
          <dc:relation>doi:10.14278/rodare.1539</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
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          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>helium ion microscope</dc:subject>
          <dc:subject>tin whisker growth</dc:subject>
          <dc:subject>defect kinetics</dc:subject>
          <dc:title>Data publication: Epitaxial lateral overgrowth of tin spheres driven and directly observed by helium ion microscopy</dc:title>
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          <dc:type>dataset</dc:type>
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        <identifier>oai:rodare.hzdr.de:582</identifier>
        <datestamp>2024-08-13T12:18:35Z</datestamp>
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          <dc:contributor>Orus, Pablo</dc:contributor>
          <dc:creator>Hlawacek, Gregor</dc:creator>
          <dc:date>2020-11-11</dc:date>
          <dc:description>HIM images and NPVE dataset created during the preparation of the W(CO)6 nanowires.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/582</dc:identifier>
          <dc:identifier>10.14278/rodare.582</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:582</dc:identifier>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-31704</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-31703</dc:relation>
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          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>helium ion microscopy</dc:subject>
          <dc:subject>focused ion beam induced deposition</dc:subject>
          <dc:title>HIM FIBID dataset for Superconducting properties of in-plane W-C nanowires grown by He+ Focused Ion Beam Induced Deposition</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>image-photo</dc:type>
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        <identifier>oai:rodare.hzdr.de:2813</identifier>
        <datestamp>2024-08-12T09:30:05Z</datestamp>
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          <dc:creator>Chava, Phanish</dc:creator>
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          <dc:creator>Helm, Manfred</dc:creator>
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          <dc:creator>Erbe, Artur</dc:creator>
          <dc:date>2024-04-17</dc:date>
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          <dc:identifier>https://rodare.hzdr.de/record/2813</dc:identifier>
          <dc:identifier>10.14278/rodare.2813</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:2813</dc:identifier>
          <dc:language>eng</dc:language>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-38985</dc:relation>
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          <dc:relation>doi:10.14278/rodare.2812</dc:relation>
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          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/restrictedAccess</dc:rights>
          <dc:subject>2D-materials</dc:subject>
          <dc:subject>heterostructures</dc:subject>
          <dc:subject>transistors</dc:subject>
          <dc:title>Electrical characterization of multi-gated WSe2/MoS2 van der Waals heterojunctions</dc:title>
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          <dc:type>dataset</dc:type>
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        <identifier>oai:rodare.hzdr.de:648</identifier>
        <datestamp>2024-08-13T12:18:09Z</datestamp>
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      </header>
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          <dc:creator>Mientus, R.</dc:creator>
          <dc:creator>Weise, M.</dc:creator>
          <dc:creator>Seeger, S.</dc:creator>
          <dc:creator>Heller, R.</dc:creator>
          <dc:creator>Ellmer, K.</dc:creator>
          <dc:date>2020-02-26</dc:date>
          <dc:description>Raw data for pub. "Electrical and Optical Properties of Amorphous SnO2:Ta Films, Prepared by DC and RF Magnetron Sputtering: A Systematic Study of the Influence of the Type of the Reactive Gas"</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/648</dc:identifier>
          <dc:identifier>10.14278/rodare.648</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:648</dc:identifier>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-31840</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-31838</dc:relation>
          <dc:relation>doi:10.14278/rodare.647</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>RBS Raw data for publication: ""Electrical and Optical Properties of Amorphous SnO2:Ta Films, Prepared by DC and RF Magnetron Sputtering: A Systematic Study of the Influence of the Type of the Reactive Gas"</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:2102</identifier>
        <datestamp>2024-08-12T09:47:18Z</datestamp>
        <setSpec>openaire_data</setSpec>
        <setSpec>user-rodare</setSpec>
        <setSpec>user-fwi</setSpec>
        <setSpec>user-ibc</setSpec>
      </header>
      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Sorokin, Serhii</dc:creator>
          <dc:creator>Anwar, Md. Shadab</dc:creator>
          <dc:creator>Hlawacek, Gregor</dc:creator>
          <dc:creator>Boucher, Richard</dc:creator>
          <dc:creator>Salgado Cabaco, Joao</dc:creator>
          <dc:creator>Potzger, Kay</dc:creator>
          <dc:creator>Lindner, Jürgen</dc:creator>
          <dc:creator>Faßbender, Jürgen</dc:creator>
          <dc:creator>Bali, Rantej</dc:creator>
          <dc:date>2023-01-25</dc:date>
          <dc:description>Archive contatins all the data acquired with the respect to the paper mentioned in the title.

It is split in three folders by data type:

"Fabrication" folder contains all of the details related to the deposition, fabrication and testing of FeAl hall bars.

"Measurements" folder contains all experimental results. They are grouped by type (as subfolders) and then again by sample codes. Typically structure of the measurement subfolders are the following:


	"Raw_data" - contains data in a form as it was acquired from the machine or very close to that.
	"Cleaned_data" - contains processed raw_data according to the need for the specific plot. For example removal of extra columns, normalizations, unit conversions, fittings etc. Specific operations performed depend on the measurement type and described in "README.md" files.
	"Plotting" - contatins Veusz (Free and Open source plotting software, https://veusz.github.io/) project files linked to the "Cleaned_data". Beware that moving the data on disk relative to the Veusz project file would destroy the links and the data files will have to be relinked. In order to avoid this created a copy of Veusz project and unlink all the datasets. This will embed the data within a project file and will make it independent from "Cleaned_data" file


"Modeling"  contains results of auxilary calculations and numerical modeling.</dc:description>
          <dc:description>S.S., Md. S.A. and R.Ba. acknowlegde DFG project no. 322462997 (BA 5656/1-2— WE 2623/14-2) and J. S.-C., R. Bo. and R.Ba. achknowledge DFG project no. 456078299 (BA 5656/3-1| BO3310/11-1). Authors want to thank to Rysard Narkovic for COMSOL simulations of joule heating effects in FeAl Hall-bars. Also a big thanks to Rico Illing for assistance with wire bonding. Support by the Nanofabrication Facilities Rossendorf (NanoFaRo) and Ion Beam Center is gratefully acknowledged.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/2102</dc:identifier>
          <dc:identifier>10.14278/rodare.2102</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:2102</dc:identifier>
          <dc:language>eng</dc:language>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-36375</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-36384</dc:relation>
          <dc:relation>doi:10.14278/rodare.2101</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>magnetism</dc:subject>
          <dc:subject>transport</dc:subject>
          <dc:subject>ion beam modification</dc:subject>
          <dc:subject>FeAl</dc:subject>
          <dc:subject>phase transitions</dc:subject>
          <dc:subject>magnetic clusters</dc:subject>
          <dc:title>Data to the paper "Transport properties of Fe60Al40 during the B2 to A2 structural phase transition"</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
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    <record>
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        <identifier>oai:rodare.hzdr.de:3321</identifier>
        <datestamp>2024-12-11T10:18:52Z</datestamp>
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          <dc:creator>Podlipec, R.</dc:creator>
          <dc:creator>Hlawacek, Gregor</dc:creator>
          <dc:date>2024-12-11</dc:date>
          <dc:description>Raw data used in the figures and plots</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/3321</dc:identifier>
          <dc:identifier>10.14278/rodare.3321</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:3321</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-40160</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-39945</dc:relation>
          <dc:relation>doi:10.14278/rodare.3320</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>Data publication: Novel correlative microscopy approach for nano-bio interface studies of ultrafine particle-induced lung epithelial cell damage</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:2706</identifier>
        <datestamp>2024-08-12T09:35:12Z</datestamp>
        <setSpec>openaire_data</setSpec>
        <setSpec>user-rodare</setSpec>
        <setSpec>user-fwi</setSpec>
        <setSpec>user-ibc</setSpec>
      </header>
      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Lai, Libang</dc:creator>
          <dc:creator>Brandenburg, Jann-Erik</dc:creator>
          <dc:creator>Chekhonin, Paul</dc:creator>
          <dc:creator>Duplessi, Arnaud</dc:creator>
          <dc:creator>Cuvilly, Fabien</dc:creator>
          <dc:creator>Etienne, Auriane</dc:creator>
          <dc:creator>Radiguet, Bertrand</dc:creator>
          <dc:creator>Rafaja, David</dc:creator>
          <dc:creator>Bergner, Frank</dc:creator>
          <dc:date>2024-01-30</dc:date>
          <dc:description>Mainly the original data for model establishment.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/2706</dc:identifier>
          <dc:identifier>10.14278/rodare.2706</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:2706</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-38698</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-38696</dc:relation>
          <dc:relation>doi:10.14278/rodare.2705</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>reactor pressure vessel steels</dc:subject>
          <dc:subject>ion irradiation</dc:subject>
          <dc:subject>microstructure characterization</dc:subject>
          <dc:subject>transmission electron microscopy</dc:subject>
          <dc:subject>atom probe tomography</dc:subject>
          <dc:subject>nanoindentation</dc:subject>
          <dc:subject>hardening</dc:subject>
          <dc:title>Data publication: Microstructure-informed prediction of hardening in ion-irradiated reactor pressure vessel steels</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
      </metadata>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:2737</identifier>
        <datestamp>2024-08-16T18:19:15Z</datestamp>
        <setSpec>openaire_data</setSpec>
        <setSpec>user-rodare</setSpec>
        <setSpec>user-fwi</setSpec>
        <setSpec>user-ibc</setSpec>
      </header>
      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Hollenbach, Michael</dc:creator>
          <dc:creator>Kasper, Christian</dc:creator>
          <dc:creator>Erb, Denise</dc:creator>
          <dc:creator>Bischoff, Lothar</dc:creator>
          <dc:creator>Hlawacek, Gregor</dc:creator>
          <dc:creator>Kraus, Hannes</dc:creator>
          <dc:creator>Kada, Wataru</dc:creator>
          <dc:creator>Ohshima, Takeshi</dc:creator>
          <dc:creator>Helm, Manfred</dc:creator>
          <dc:creator>Facsko, Stefan</dc:creator>
          <dc:creator>Dyakonov, Vladimir</dc:creator>
          <dc:creator>Astakhov, Georgy</dc:creator>
          <dc:date>2024-02-07</dc:date>
          <dc:description>Experimental data in OriginPro</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/2737</dc:identifier>
          <dc:identifier>10.14278/rodare.2737</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:2737</dc:identifier>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-39437</dc:relation>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>doi:10.1002/adfm.202313413</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-38751</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-38750</dc:relation>
          <dc:relation>doi:10.14278/rodare.2736</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>data storage</dc:subject>
          <dc:subject>silicon carbide</dc:subject>
          <dc:subject>color centers</dc:subject>
          <dc:subject>focused ion beams</dc:subject>
          <dc:subject>cathodoluminescence</dc:subject>
          <dc:title>Data publication: Ultralong-term high-density data storage with atomic defects in SiC</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
      </metadata>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:270</identifier>
        <datestamp>2024-08-13T12:22:25Z</datestamp>
        <setSpec>openaire_data</setSpec>
        <setSpec>user-rodare</setSpec>
        <setSpec>user-fwi</setSpec>
        <setSpec>user-ibc</setSpec>
      </header>
      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Hache, Toni</dc:creator>
          <dc:creator>Li, Yancheng</dc:creator>
          <dc:creator>Weinhold, Tillmann</dc:creator>
          <dc:creator>Scheumann, Bernd</dc:creator>
          <dc:creator>Trindade Goncalves, Francisco José</dc:creator>
          <dc:creator>Hellwig, Olav</dc:creator>
          <dc:creator>Faßbender, Jürgen</dc:creator>
          <dc:creator>Schultheiß, Helmut</dc:creator>
          <dc:date>2020-03-18</dc:date>
          <dc:description>We demonstrate a novel type of spin Hall nano-oscillators (SHNOs) that allow for efficient tuning of magnetic auto-oscillations over an extended range of gigahertz frequencies, using bipolar direct currents at constant magnetic elds. This is achieved by stacking two distinct magnetic materials with a platinum layer in between. In this device, the orientation of the spin polarised electrons accumulated at the top and bottom interfaces of platinum is switched upon changing the polarity of the direct current. As a result, the effective anti-damping required to drive large amplitude auto-oscillations can appear either at the top or bottom magnetic layer. Tuning of the auto-oscillation frequencies by several gigahertz can be obtained by combining two materials with sufficiently different saturation magnetization. Here we show that the combination of NiFe and CoFeB can result in 3 GHz shifts in the auto-oscillation frequencies. Bipolar SHNOs as such may bring enhanced synchronisation capabilities to neuromorphic applications.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/270</dc:identifier>
          <dc:identifier>10.14278/rodare.270</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:270</dc:identifier>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-30822</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-30829</dc:relation>
          <dc:relation>doi:10.14278/rodare.269</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:title>Bipolar spin Hall nano-oscillators</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>dataset</dc:type>
        </oai_dc:dc>
      </metadata>
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    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:2527</identifier>
        <datestamp>2024-08-12T09:37:07Z</datestamp>
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      </header>
      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Sebastijanovič, Aleksandar</dc:creator>
          <dc:creator>Podlipec, Rok</dc:creator>
          <dc:creator>Gianoncelli, Alessandra</dc:creator>
          <dc:creator>Hlawacek, Gregor</dc:creator>
          <dc:creator>Bonanni, Valentina</dc:creator>
          <dc:creator>Camassa, Laura Maria Azzura</dc:creator>
          <dc:creator>Malmborg, Vilhelm</dc:creator>
          <dc:creator>Kralj, Slavko</dc:creator>
          <dc:creator>Pagels, Joakim</dc:creator>
          <dc:creator>Vogel, Ula</dc:creator>
          <dc:creator>Zienolddiny-Narui, Shan</dc:creator>
          <dc:creator>Urbančič, Iztok</dc:creator>
          <dc:creator>Koklič, Tilen</dc:creator>
          <dc:creator>Štrancar, Janez</dc:creator>
          <dc:date>2023-10-29</dc:date>
          <dc:description>Supplementary material including sample preparation, microscope setup, correlative microscopy analysis and supporting images.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/2527</dc:identifier>
          <dc:identifier>10.14278/rodare.2527</dc:identifier>
          <dc:identifier>oai:rodare.hzdr.de:2527</dc:identifier>
          <dc:relation>doi:10.17815/jlsrf-3-159</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-37722</dc:relation>
          <dc:relation>url:https://www.hzdr.de/publications/Publ-37103</dc:relation>
          <dc:relation>doi:10.14278/rodare.2526</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/fwi</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/ibc</dc:relation>
          <dc:relation>url:https://rodare.hzdr.de/communities/rodare</dc:relation>
          <dc:rights>info:eu-repo/semantics/openAccess</dc:rights>
          <dc:rights>https://creativecommons.org/licenses/by/4.0/legalcode</dc:rights>
          <dc:subject>neurite shortening</dc:subject>
          <dc:subject>neuronal degeneration</dc:subject>
          <dc:subject>amyloid beta (Aβ)</dc:subject>
          <dc:subject>microtubule-associated protein (tau)</dc:subject>
          <dc:subject>air pollution</dc:subject>
          <dc:subject>particulate matter</dc:subject>
          <dc:subject>TiO2 nanotubes</dc:subject>
          <dc:subject>diesel exhaust</dc:subject>
          <dc:subject>CeO2 nanoparticles</dc:subject>
          <dc:subject>iron oxide</dc:subject>
          <dc:title>Supporting Data: Particulate matter triggers the formation of extracellular amyloid β and tau -containing plaques and neurite shortening in vitro</dc:title>
          <dc:type>info:eu-repo/semantics/other</dc:type>
          <dc:type>other</dc:type>
        </oai_dc:dc>
      </metadata>
    </record>
    <record>
      <header>
        <identifier>oai:rodare.hzdr.de:3412</identifier>
        <datestamp>2025-07-02T13:46:31Z</datestamp>
        <setSpec>openaire_data</setSpec>
        <setSpec>user-rodare</setSpec>
        <setSpec>user-fwi</setSpec>
        <setSpec>user-ibc</setSpec>
      </header>
      <metadata>
        <oai_dc:dc xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:oai_dc="http://www.openarchives.org/OAI/2.0/oai_dc/" xsi:schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd">
          <dc:creator>Ghosh, Sayantan</dc:creator>
          <dc:creator>Khan, Muhammad Bilal</dc:creator>
          <dc:creator>Prucnal, Slawomir</dc:creator>
          <dc:creator>Hübner, René</dc:creator>
          <dc:creator>Chava, Phanish</dc:creator>
          <dc:creator>Mauersberger, Tom</dc:creator>
          <dc:creator>Mikolajick, Thomas</dc:creator>
          <dc:creator>Erbe, Artur</dc:creator>
          <dc:creator>Georgiev, Yordan</dc:creator>
          <dc:date>2025-01-20</dc:date>
          <dc:description>Top-down fabrication of Reconfigurable field effect transistors (RFET) is a prerequisite for large-scale integration. Silicon (Si) nanowire-based RFET devices have been extensively studied in the past decade. To achieve superior RFET performance, it is necessary to develop scalable devices with controlled silicidation of the channels, a high on-off ratio, and symmetrical p- and n- on-currents. In this work, we present the electrical performance of scalable RFET devices based on Si nanowires, featuring controlled silicide lengths attained through millisecond-range flash lamp annealing (FLA). The electronic properties of the transistors are optimized by tuning the different gate schemes and gate dielectric materials for nanowire passivation. We explore the gate capacitive control on the energy bands in the conduction of charge carriers using various dielectric materials. The transfer characteristics of a single top-gated device with SiO2 as gate dielectric show enhanced ambipolar behavior with negligible hysteresis, low subthreshold swing values of 210 mV/dec, and an on-off ratio (ION/IOFF) of up to ∼ 10^8 (8 orders of magnitude). The devices also demonstrate excellent electron and hole symmetry values with a record pn on-current symmetry of 1.03. Utilizing high-performance, scalable RFET devices with elevated symmetrical on-currents holds great promise for reducing delay and power consumption in future energy-efficient integrated circuitry.</dc:description>
          <dc:identifier>https://rodare.hzdr.de/record/3412</dc:identifier>
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          <dc:description>FINDSLAB: Software for Exfoliation and Cleavage of Crystals

Tom Barnowsky &amp; Rico Friedrich
Technische Universität Dresden &amp; Helmholtz-Zentrum Dresden-Rossendorf, Germany

This program implements the XCP method to identify 2D materials from bulk materials by estimating bonding energies using a two-body potential model [1].

Potential Models

The code supports a range of two-body potential parametrizations \(V(r)\), namely:


	Lennard-Jones + Yukawa
	Morse + Yukawa
	Mie + Yukawa


Parameters are provided as plain text files which are specified via the environment variable `FINDSLAB_POTDATA`. Note that all energies have to be multiplied by a factor two to compare to surface/bonding energies.

Build

Run `make` serially (without `-j n`). A binary will be created in the `bin` directory.

Requirements: a recent Fortran compiler, BLAS and LAPACK.

Usage

FINDSLAB provides some instructions when running `findslab --help`.

The code is designed to work with VASP POSCAR files, however, the reader is not fully general and expects the formatting as it is found in the AFLOW database (aflow.org) [2]. To convert general structure files (including those from other codes) to this format, use the AFLOW software to run `aflow --vasp`. The aflow code is available at github.com/aflow-org/aflow.

Here we provide an example code to determine HKLSEARCH slabs from bulk Ca3N2 retrieved via the AFLOW REST API [3]:

export FINDSLAB_POTDATA=&lt;path to file&gt;
export OPENBLAS_NUM_THREADS=1
curl http://aflowlib.duke.edu/AFLOWDATA/ICSD_WEB/HEX/Ca3N2_ICSD_169727/CONTCAR.relax.vasp |
    aflow --sconv |
    findslab --hklsearch

Conversion to the conventional unit cell via `aflow --sconv` is optional and is only used here to relate Miller indices to the conventional cell.

Acknowledgements

The authors thank Carsten Timm, Steve Schmerler, and Moritz Leucke for fruitful discussions. Parts of this work are based on an implementation for creating Miller planes from the atomic simulation environment (ASE) [4].  Additionally, we implement the criterion of Mounet et al. [5] to identify van der Waals-bound layers in bulk structures.

License

This dataset is published under the Apache 4.0 license. We kindly ask works based on this software to cite this entry and/or the associated publication.</dc:description>
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          <dc:description>In this work, the integration of an atomic force microscope (AFM) into a helium ion microscope
(HIM) is reported for the first time. The helium ion microscope is a powerful instrument, capable of sub-
nanometer resolution imaging and machining nanoscale structures, while the AFM is a well-established
versatile tool for multiparametric nanoscale metrology. Combining the two techniques opens the way for
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performed without contamination of the sample as well as avoiding environmental changes between
processing steps. The practicality of the resulting tool lies in the complementarity of the two techniques as
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          <dc:description>Primary Research Data for "Exfoliation and Cleavage of Crystals from a Universal Potential"

Tom Barnowsky &amp; Rico Friedrich
TU Dresden &amp; Helmholtz-Zentrum Dresden-Rossendorf, Germany

This dataset contains the primary data supporting the publication "Exfoliation and Cleavage of Crystals from a Universal Potential". Each directory corresponds to a bulk entry from the AFLOW database for which a slab prediction was generated. The directory name follows the AFLOWLIB uniform resource locator (with the prefix `aflowlib.duke.edu:` omitted). Bulk data can be retrieved from aflowlib.duke.edu through the AFLOW REST API using this identifier [1].

Within each bulk directory, subdirectories are provided for every predicted slab. Their names follow the pattern:

ID="${MILLER_INDEX}_facet_${BULK_CHEMICAL_FORMULA}_ICSD_${BULK_ICSD_NUMBER}_slab_${SLAB_CHEMICAL_FORMULA}_uff_${UFF_ENERGY}"


	Chemical formulas are alphabetically ordered.
	UFF energies [2] are written with two significant figures.


This provides a unique identifier for every bulk/slab configuration.

Contents of Each Slab Directory

Each `${ID}` directory contains:


	`POSCAR.vasp.xz`: structure file of the unrelaxed predicted 2D slab.
	If an exfoliation-energy calculation was performed, the full AFLOW/VASP calculation data is included [3-8].
	A static "as-sliced" DFT calculation is located in a separate `${ID}_static` directory.
	If a DFT calculation did not finish cleanly the calculation data is omitted.


For systems where band structures or molecular dynamics (MD) were computed, the respective results are stored as:


	`${ID}/BANDS_DOS`
	`${ID}/MD_300K`


Directory Structure Example

Below is an example for the predicted (001) slab of BaCO3:

AFLOWDATA
└── ICSD_WEB
    ├── HEX
    │   ├── Ba1C1O3_ICSD_91897
    │   │   ├── 001_facet_Ba1C1O3_ICSD_91897_slab_Ba1C1O3_uff_0.75
    │   │   │   ├── aflow.in
    │   │   │   ├── BANDS_DOS
    │   │   │   │   ├── aflow.in
    │   │   │   │   └── ...
    │   │   │   ├── MD_300K
    │   │   │   │   ├── INCAR.xz
    │   │   │   │   └── ...
    │   │   │   └── ...
    │   │   └── 001_facet_Ba1C1O3_ICSD_91897_slab_Ba1C1O3_uff_0.75_static
    │   │       ├── aflow.in
    │   │       └── ...
    │   └── ...
    └── ...

This structure is split at the third level into 14 separate tar archives (one for each Bravais lattice) for download.

Structure File

Each `POSCAR.vasp.xz` file contains the predicted slab structure in VASP's POSCAR format. The file header encodes essential metadata about the algorithm and parameters used to generate the slab.

HKLSEARCH Slabs

For slabs created using the HKLSEARCH algorithm, the header has the form:

HEADER="Slab( ${H} ${K} ${L} ), start=${START}, thickness=${THICKNESS}, energy=${SURFACE_ENERGY}, ratio=${IN_OUT_RATIO}"

where


	`START`: Starting point of the cut-out layer along the (hkl) normal in units of Angstrom.
	`THICKNESS`: Thickness of the extracted slab along the (hkl) normal in units of Angstrom.
	`SURFACE_ENERGY`: The XCP model surface energy (divided by 2).
	`IN_OUT_RATIO`: The in-plane/out-of-plane ratio.


BONDDEL Slabs

For slabs created using the BONDDEL algorithm, the header is:

HEADER="Slab(bonddel,  ${H} ${K} ${L}), ratio=${RATIO}"

where


	 `RATIO`: 2D/3D cut bond energy ratio.


Additional Files

This dataset also includes the potential data file used with the FINDSLAB code [9], supplied as `POTDATA_morse_yukawa_2025.xz`.

License

This dataset is published under the Creative Commons Attribution 4.0 (CC BY) license. We kindly ask works based on this data to cite this dataset entry and/or the associated publication.</dc:description>
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Simulation results using SIMNRA-Code also included</dc:description>
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