Journal
SCIENCE
Volume 358, Issue 6364, Pages 751-756Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.aam7092
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Funding
- Skoltech-MIT Center for Electrochemical Energy
- Eni
- Grants-in-Aid for Scientific Research [16J11177] Funding Source: KAKEN
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Catalysts for chemical and electrochemical reactions underpin many aspects of modern technology and industry, from energy storage and conversion to toxic emissions abatement to chemical and materials synthesis. This role necessitates the design of highly active, stable, yet earth-abundant heterogeneous catalysts. In this Review, we present the perovskite oxide family as a basis for developing such catalysts for (electro)chemical conversions spanning carbon, nitrogen, and oxygen chemistries. A framework for rationalizing activity trends and guiding perovskite oxide catalyst design is described, followed by illustrations of how a robust understanding of perovskite electronic structure provides fundamental insights into activity, stability, and mechanism in oxygen electrocatalysis. We conclude by outlining how these insights open experimental and computational opportunities to expand the compositional and chemical reaction space for next-generation perovskite catalysts.
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