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- Complementary Imaging of Silver Nanoparticle Interactions with Green Algae: Dark-Field Microscopy, Electron Microscopy and Nanoscale Secondary-Ion Mass SpectrometryData to accompany the publication "Complementary Imaging of Silver Nanoparticle Interactions with Green Algae: Dark-Field Microscopy, Electron Microscopy and Nanoscale Secondary-Ion Mass Spectrometry" published in ACS Nano (DOI: 10.1021/acsnano.7b04556)
- Dataset
- Data for "Tailoring Hot-Carrier Distributions of Plasmonic Nanostructures through Surface Alloying"This upload includes the data presented and analyzed in the article "Tailoring Hot-Carrier Distributions of Plasmonic Nanostructures through Surface Alloying" by Jakub Fojt, Tuomas P. Rossi, Priyank V. Kumar, and Paul Erhart. The codes for reproducing the data are provided at doi:10.5281/zenodo.10663218. See README.md in data.zip for a detailed description.
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- Dataset belonging to publication: "Microgels react to incorporation of solutes: Superchaotropic Nano-ions"Data to the figures in the publication, raw data to zetasizer, multi-angle DLS, SLS, SAXS and Raman
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- Dataset for "Reconfigurable Magnonic Crystals Based on Imprinted Magnetization Textures in Hard and Soft Dipolar-Coupled Bilayers"The dataset consist of the data of the numerical simulations used to prepare the figures for the manuscript: Krzysztof Szulc, Silvia Tacchi, Aurelio Hierro-Rodríguez, Javier Díaz, Paweł Gruszecki, Piotr Graczyk, Carlos Quirós, Daniel Markó, José Ignacio Martín, María Vélez, David S. Schmool, Giovanni Carlotti, Maciej Krawczyk, and Luis Manuel Álvarez-Prado. Reconfigurable Magnonic Crystals Based on Imprinted Magnetization Textures in Hard and Soft Dipolar-Coupled Bilayers. ACS Nano 2022 16 (9), 14168-14177. Please read README.txt file to see the description of the data in the files.
- Dataset
- Dataset supporting the paper "Large Orbital Moment of Two Coupled Spin‑Half Co Ions in a Complex on Gold. ACS Nano 17, 10608 (2023)"Dataset corresponding to theoretical calculations in the paper "Large Orbital Moment of Two Coupled Spin‑Half Co Ions in a Complex on Gold" ACS Nano 17, 10608 (2023), https://pubs.acs.org/doi/10.1021/acsnano.3c01595 List of files: Several folders corresponding to the figures of the paper. They contain: .siesta files: STM images in WsXM format (http://www.wsxm.eu/) simulated using STMpw (https://doi.org/10.5281/zenodo.3581159). CONTCAR files: relaxed structures in VASP format. They can be visualized with VESTA (https://jp-minerals.org/vesta/en/). .agr: grace files (https://plasma-gate.weizmann.ac.il/Grace/).
- Dataset
- A Submicrosecond-Response Ultraviolet–Visible–Near-Infrared Broadband Photodetector Based on 2D Tellurosilicate InSiTe3original data
- Dataset
- Real-Time Measurement of the Hygroscopic Growth Dynamics of Single Aerosol Nanoparticles with Bloch Surface Wave MicroscopySchematics of the experimental setup and the samples. Hygroscopic growth of AS aerosol nanoparticle measured via BSWM. Hygroscopic growth of a glucose nanoparticle, AN nanoparticle, glucose + AS mixed nanoparticle, and AN + AS mixed nanoparticle. Specific time for solid-to-aqueous phase transition of single mixed aerosols with various dry mass ratios.
- Dataset
- Data for Bend-induced ferroelectric domain walls in α-In2Se3STEM images of kinks in α-In2Se3, DFT calculation of bending of α-In2Se3, PFM on as exfoliated and controllably bend α-In2Se3
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- Dataset for Design and Pattern Strain in 2D materials
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- Source data for the publication: Controlled multidirectional particle transportation by magnetic artificial ciliaZhang, S., Zhang, R., Wang, Y., Onck, P.R. & Toonder, J.M.J. den (2020). Controlled multidirectional particle transportation by magnetic artificial cilia. ACS Nano 14, 8, 10313–10323. DOI: https://dx.doi.org/10.1021/acsnano.0c03801. This study experimentally and numerically demonstrates a versatile particle transportation platform consisting of arrays of magnetic artificial cilia (MAC) actuated by a rotating magnet. By performing a tilted conical motion, the MAC are capable of transporting particles on their tips, along designated directions that can be fully controlled by the externally applied magnetic field, in both liquid and air, at high resolution (particle precision), with varying speeds and for a range of particle sizes. Moreover, the underlying mechanism of the controlled particle transportation is studied in depth by combining experiments with numerical simulations. The data are obtained with methods described in the publication.
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