Virtual Materials Intelligence for Design and Discovery of Advanced Electrocatalysts |
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| Authors: | Dr Ali Malek Dr Mohammad Javad Eslamibidgoli Mehrdad Mokhtari Dr Qianpu Wang Prof Dr Michael H Eikerling Dr Kourosh Malek |
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| Institution: | 1. NRC-EME, 4250 Wesbrook Mall, Vancouver, BC, V6T 1W5 Canada;2. Department of Chemistry, Simon Fraser University, 8888 University Drive, Burnaby, BC, V5A 1S6 Canada |
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| Abstract: | Similar to advancements gained from big data in genomics, security, internet of things, and e-commerce, the materials workflow could be made more efficient and prolific through advances in streamlining data sources, autonomous materials synthesis, rapid characterization, big data analytics, and self-learning algorithms. In electrochemical materials science, data sets are large, unstructured/heterogeneous, and difficult to process and analyze from a single data channel or platform. Computer-aided materials design together with advances in data mining, machine learning, and predictive analytics are expected to provide inexpensive and accelerated pathways towards tailor-made functionally optimized energy materials. Fundamental research in the field of electrochemical energy materials focuses primarily on complex interfacial phenomena and kinetic electrocatalytic processes. This perspective article critically assesses AI-driven modeling and computational approaches that are currently applied to those objects. An application-driven materials intelligence platform is introduced, and its functionalities are scrutinized considering the development of electrocatalyst materials for CO2 conversion as a use case. |
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| Keywords: | AI-driven electrocatalyst internet of things machine learning material discovery |
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