Designing physically separated bimetallic catalysts through cooperative redox enhancement (CORE)
Lehigh University · Cardiff University · +1 more institution
Abstract
Liquid-phase heterogeneous catalysis underpins numerous chemical manufacturing processes, ranging from essential products to renewable energy sources, such as hydrogen. Despite the differences in reactor setups and the driving forces between thermos- and electro-catalysis, it is commonly overlooked that the two disciplines are fundamentally governed by the same underlying fundamentals. In this tutorial review, we explore the similarities between electro- and thermocatalysis and introduce how electrochemical methodologies can be applied to characterize thermocatalysis to gain both fundamental and experimental insights. Here, we discuss the recent discovery of Cooperative Redox Enhancement (CORE), a phenomenon…
Citation impact
- FWCI
- 14.99
- Percentile
- 99%
- References
- 32
Authors
8- BKBohyeon Kim
Lehigh University
- ITIsaac T. Daniel
Cardiff University, Cardiff Metropolitan University
- MJMark J. Douthwaite
Cardiff University, Cardiff Metropolitan University
- SPSamuel Pattisson
Cardiff University, Cardiff Metropolitan University
- RJRichard J. Lewis
Cardiff University, Cardiff Metropolitan University
Topics & keywords
- Bimetallic strip
- Catalysis
- Electrochemistry
- Redox
- Chemical energy
- Selectivity
- Renewable energy
- Synergistic catalysis