Data

CoAu Nanoparticle Data Set

Commonwealth Scientific and Industrial Research Organisation
Ting, Jonathan ; Barnard, Amanda ; Opletal, George
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.25919/zv7s-3f61&rft.title=CoAu Nanoparticle Data Set&rft.identifier=https://doi.org/10.25919/zv7s-3f61&rft.publisher=Commonwealth Scientific and Industrial Research Organisation&rft.description=This is a set of 156071 cobalt-gold (CoAu) nanoparticle FINAL CONFIGURATIONS, for use in data-driven studies. These structures have been optimised (fully relaxed) using molecular dynamics with an embedded atom (EAM) interatomic potential, at various temperatures. \nAll files are in XYZ format, and the naming convention is defined in the accompanying CSV file that lists all of the structural features and property indicators (see Supporting Attachments). \nSizes range from 181 atoms to 6083 atoms, with both crystalline and non-crystalline configurations and regions. Each nanoparticle has been characterised using a variety of topological features, including size, lattice structure, surface curvature, and several order parameters. The final 2 columns are target labels, providing the total energy and the excess formation energy. Links to publications describing these property labels are provided in the meta data. Other features can also be used as labels as desired.\nNote that the elemental order in the dataset title correspond to structurally distinct sets as documented in the methodology file.\nLineage: Simulated by Jonathan Y. C. Ting for the purposes of studying the impact of structural disorder, anisotropy, and polydispersity on the properties of CoAu nanoparticle ensembles.&rft.creator=Ting, Jonathan &rft.creator=Barnard, Amanda &rft.creator=Opletal, George &rft.date=2024&rft.edition=v2&rft_rights=Creative Commons Attribution 4.0 International Licence https://creativecommons.org/licenses/by/4.0/&rft_rights=Data is accessible online and may be reused in accordance with licence conditions&rft_rights=All Rights (including copyright) CSIRO, Australian National University 2024.&rft_subject=material&rft_subject=molecular dynamics&rft_subject=nanoparticle nanostructure&rft_subject=computational simulation&rft_subject=results&rft_subject=cobalt&rft_subject=gold&rft_subject=xyz&rft_subject=configurations&rft_subject=structures&rft_subject=features&rft_subject=Inorganic materials (incl. nanomaterials)&rft_subject=Macromolecular and materials chemistry&rft_subject=CHEMICAL SCIENCES&rft_subject=Theory and design of materials&rft_subject=Theoretical and computational chemistry not elsewhere classified&rft_subject=Theoretical and computational chemistry&rft_subject=Nanotechnology not elsewhere classified&rft_subject=Nanotechnology&rft_subject=ENGINEERING&rft_subject=Applications in physical sciences&rft_subject=Applied computing&rft_subject=INFORMATION AND COMPUTING SCIENCES&rft_subject=Artificial intelligence not elsewhere classified&rft_subject=Artificial intelligence&rft_subject=Data mining and knowledge discovery&rft_subject=Data management and data science&rft_subject=Condensed matter physics not elsewhere classified&rft_subject=Condensed matter physics&rft_subject=PHYSICAL SCIENCES&rft.type=dataset&rft.language=English Access the data
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Creative Commons Attribution 4.0 International Licence
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Data is accessible online and may be reused in accordance with licence conditions

All Rights (including copyright) CSIRO, Australian National University 2024.

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This is a set of 156071 cobalt-gold (CoAu) nanoparticle FINAL CONFIGURATIONS, for use in data-driven studies. These structures have been optimised (fully relaxed) using molecular dynamics with an embedded atom (EAM) interatomic potential, at various temperatures.
All files are in XYZ format, and the naming convention is defined in the accompanying CSV file that lists all of the structural features and property indicators (see Supporting Attachments).
Sizes range from 181 atoms to 6083 atoms, with both crystalline and non-crystalline configurations and regions. Each nanoparticle has been characterised using a variety of topological features, including size, lattice structure, surface curvature, and several order parameters. The final 2 columns are target labels, providing the total energy and the excess formation energy. Links to publications describing these property labels are provided in the meta data. Other features can also be used as labels as desired.
Note that the elemental order in the dataset title correspond to structurally distinct sets as documented in the methodology file.
Lineage: Simulated by Jonathan Y. C. Ting for the purposes of studying the impact of structural disorder, anisotropy, and polydispersity on the properties of CoAu nanoparticle ensembles.

Available: 2024-08-05

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Applications in Physical Sciences | Applied Computing | Artificial Intelligence | Artificial Intelligence Not Elsewhere Classified | Chemical Sciences | Condensed Matter Physics | Condensed Matter Physics Not Elsewhere Classified | Data Management and Data Science | Data Mining and Knowledge Discovery | Engineering | Information and Computing Sciences | Inorganic Materials (Incl. Nanomaterials) | Macromolecular and Materials Chemistry | Nanotechnology | Nanotechnology Not Elsewhere Classified | Physical Sciences | Theoretical and Computational Chemistry | Theoretical and Computational Chemistry Not Elsewhere Classified | Theory and Design of Materials | cobalt | computational simulation | configurations | features | gold | material | molecular dynamics | nanoparticle nanostructure | results | structures | xyz |

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