About this Research Topic
This Research Topic is launched to provide opportunities for researchers to share their latest perspectives and research achievements for the promotion of electrocatalysis in terms of small molecule conversion and organic synthesis to harvest value-added products. Electrocatalytic performance is closely related to electronic structures of electrocatalysts and electronic structures of nanomaterials could alter catalytic paths in turn. Hence, this Research Topic is focused on the development of rational catalyst design and strategies on regulations of electronic structure, the establishment of structure-activity relationships, and the study of electrocatalytic mechanisms based on rational catalyst design. We hope to promote the development of these aspects and drive a high-efficient electrolyzer to harvest value-added chemicals.
We invite researchers to share their Original Research Articles or Reviews on the development and application of electrocatalysis in this Research Topic. Research on theoretical predictions of catalytic features of electrocatalysts is also deemed favorable. The Research Topic tends to cover these areas but is not limited to:
• Novel approaches for catalyst synthesis and rational designs or modifications of catalysts for electrocatalytic water splitting (hydrogen evolution reaction, oxygen evolution reaction and other alternative electrochemical reactions), CO2 electroreduction, organic electrosynthesis or electrolysis, small molecules conversion.
• Design or optimizations of multifunctional electrolyzers or energy-efficient (photovoltaic) electrocatalytic systems.
• Advanced characterizations such as in-situ techniques for studying phase transition or/and surface reconstruction of catalyst or electrocatalytic reaction paths.
Keywords: Electrocatalysis, Electrolyzers, Catalytic mechanism, Theoretical prediction
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.