The availability and easy access of large scale experimental and computational materials data have enabled the emergence of accelerated development of algorithms and models for materials property prediction, structure prediction, and generative design of materials. However, lack of user-friendly materials informatics web servers has severely constrained the wide adoption of such tools in the daily practice of materials screening, tinkering, and design space exploration by materials scientists. Herein we first survey current materials informatics web apps and then propose and develop this http URL, a web based materials informatics toolbox for materials discovery, which includes a variety of routinely needed tools for exploratory materials discovery, including materials composition and structure check (e.g. for neutrality, electronegativity balance, dynamic stability, Pauling rules), materials property prediction (e.g. band gap, elastic moduli, hardness, thermal conductivity), and search for hypothetical materials. These user-friendly tools can be freely accessed at \url{this http URL}. We argue that such materials informatics apps should be widely developed by the community to speed up the materials discovery processes.
Hu, Jianjun, Stanislav Stefanov, Yuqi Song, Sadman Sadeed Omee, Steph-Yves Louis, Edirisuriya Siriwardane, and Yong Zhao. "MaterialsAtlas. org: A Materials Informatics Web App Platform for Materials Discovery and Survey of State-of-the-Art." arXiv preprint arXiv:2109.04007 (2021).
charge neutrality,
Curator: usccolumbia