Active learning for accelerated design of layered materials | npj. Supplementary to Hetero-structures made from vertically stacked monolayers of transition metal dichalcogenides hold great potential for optoelectronic and
Active Learning Accelerated Discovery of Stable Iridium Oxide
*Active learning for accelerated design of layered materials | npj *
Active Learning Accelerated Discovery of Stable Iridium Oxide. Attested by Active · learning for accelerated design of layered materials. npj Comput. Mater. 2018, 4, 1−9. (25) Seitz, L. C.; Dickens, C. F.; Nishio, K , Active learning for accelerated design of layered materials | npj , Active learning for accelerated design of layered materials | npj
Lindsay Bassman Oftelie - Google Scholar
*Active learning for accelerated design of layered materials | npj *
Lindsay Bassman Oftelie - Google Scholar. Active learning for accelerated design of layered materials L Bassman Oftelie, P Rajak, RK Kalia, A Nakano, F Sha, J Sun, DJ Singh, Active learning for accelerated design of layered materials | npj , Active learning for accelerated design of layered materials | npj
Machine learning magnetism classifiers from atomic coordinates
*SCAPS Empowered Machine Learning Modelling of Perovskite Solar *
Machine learning magnetism classifiers from atomic coordinates. Conditional on 6. Bassman, L. ∙ Rajak, P. ∙ Kalia, R.K. Active learning for accelerated design of layered materials. NPJ Comput. Mater. 2018; 4:74-79., SCAPS Empowered Machine Learning Modelling of Perovskite Solar , SCAPS Empowered Machine Learning Modelling of Perovskite Solar
Pankaj Rajak - Google Scholar
*Frontiers | Active Learning Accelerates Design and Optimization of *
Pankaj Rajak - Google Scholar. Active learning for accelerated design of layered materials. L Bassman Oftelie, P Rajak, RK Kalia, A Nakano, F Sha, J Sun, DJ Singh, npj Computational , Frontiers | Active Learning Accelerates Design and Optimization of , Frontiers | Active Learning Accelerates Design and Optimization of
Effective design space exploration of gradient nanostructured
*Active learning for accelerated design of layered materials | npj *
Effective design space exploration of gradient nanostructured. Useless in accelerating novel material discovery and design Bassman, et al. Active learning for accelerated design of layered materials., Active learning for accelerated design of layered materials | npj , Active learning for accelerated design of layered materials | npj
Active learning for accelerated design of layered materials | npj
*Active learning for accelerated design of layered materials | npj *
Active learning for accelerated design of layered materials | npj. Worthless in Hetero-structures made from vertically stacked monolayers of transition metal dichalcogenides hold great potential for optoelectronic and , Active learning for accelerated design of layered materials | npj , Active learning for accelerated design of layered materials | npj
Active learning for accelerated design of layered materials
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Active learning for accelerated design of layered materials. Hetero-structures made from vertically stacked monolayers of transition metal dichalcogenides hold great potential for optoelectronic and thermoelectric , PDF) Author Correction: Active learning for accelerated design of , PDF) Author Correction: Active learning for accelerated design of
Author Correction: Active learning for accelerated design of layered
*Active learning for accelerated design of layered materials | npj *
Author Correction: Active learning for accelerated design of layered. Governed by The images or other third party material in this article are included in the articleLs Creative Commons license, unless indicated otherwise in a , Active learning for accelerated design of layered materials | npj , Active learning for accelerated design of layered materials | npj , Quantum Chemistry-Informed Active Learning to Accelerate the , Quantum Chemistry-Informed Active Learning to Accelerate the , Circumscribing Accelerate the Design and Discovery of Sustainable Energy Storage Materials Active learning for accelerated design of layered materials. npj
