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Emerging Atomistic Modeling Methods for Heterogeneous Electrocatalysis.

Zachary LevellJia-Bo LeSaerom YuRuoyu WangSudheesh EthirajanRachita RanaAmbarish R KulkarniJoaquin ResascoDeyu LuJun ChengYuanyue Liu
Published in: Chemical reviews (2024)
Heterogeneous electrocatalysis lies at the center of various technologies that could help enable a sustainable future. However, its complexity makes it challenging to accurately and efficiently model at an atomic level. Here, we review emerging atomistic methods to simulate the electrocatalytic interface with special attention devoted to the components/effects that have been challenging to model, such as solvation, electrolyte ions, electrode potential, reaction kinetics, and pH. Additionally, we review relevant computational spectroscopy methods. Then, we showcase several examples of applying these methods to understand and design catalysts relevant to green hydrogen. We also offer experimental views on how to bridge the gap between theory and experiments. Finally, we provide some perspectives on opportunities to advance the field.
Keyphrases
  • molecular dynamics simulations
  • working memory
  • high resolution
  • mass spectrometry
  • metal organic framework
  • current status
  • aqueous solution