Engineering Multiple Active Site Architectures for Advanced Electrocatalytic Conversions
University of Shanghai for Science and Technology · Nankai University · +2 more institutions
Abstract
ABSTRACT Electrocatalytic technology represents a pivotal pathway for converting low‐value feedstocks into high‐value products, though its practical implementation continues to face fundamental challenges such as sluggish reaction kinetics and high energy barriers. These limitations are increasingly being overcome through multi‐active site (MAS) architectures, which utilize synergistic effects to facilitate multi‐electron transfer processes and establish a new paradigm in catalyst design. This review systematically explores rational design and engineering strategies for MAS structures, covering approaches such as heterostructure construction, dual‐atom site modulation, defect engineering, alloying, and cascade…
Citation impact
- FWCI
- 14.58
- Percentile
- 99%
- References
- 230
Authors
9- RGRiyue GeCorresponding
University of Shanghai for Science and Technology, Nankai University
- YLYawen Li
University of Shanghai for Science and Technology
- JHJuanjuan Huo
University of Shanghai for Science and Technology
- MCMingjin Cui
University of Shanghai for Science and Technology
- YDYuhai Dou
University of Shanghai for Science and Technology
Topics & keywords
- Rational design
- Catalysis
- Sustainable energy
- Key (lock)
- Work (physics)
- Active site
- Characterization (materials science)