Breaking Sabatier's vertex  via  switching the oxygen adsorption configuration and reaction pathway on dual active sites for acidic oxygen reduction

Guo, Pan; Liu, Bo; Tu, Fengdi; Dai, Yunkun; Zhang, Ziyu; Xia, Yunfei; Ma, Miao; Zhang, Yunlong; Zhao, Lei; Wang, Zhen‐Bo

doi:10.1039/d4ee00823e

articleEnergy & Environmental ScienceJan 1, 2024Closed access

Breaking Sabatier's vertex via switching the oxygen adsorption configuration and reaction pathway on dual active sites for acidic oxygen reduction

PGPan Guo BLBo Liu FTFengdi Tu YDYunkun Dai ZZZiyu Zhang

Harbin Institute of Technology

Indexed incrossref

Abstract

Switching the oxygen adsorption configuration and reaction pathway breaks Sabatier's vertex and achieves an extraordinary acidic oxygen reduction performance.

Citation impact

158

total citations

FWCI: 14.68
Percentile: 100%
References: 58

Citations per year

Authors

PG
Pan Guo
Harbin Institute of Technology
BL
Bo Liu
Harbin Institute of Technology
FT
Fengdi Tu
Harbin Institute of Technology
YD
Yunkun Dai
Harbin Institute of Technology
ZZ
Ziyu Zhang
Harbin Institute of Technology

Topics & keywords

Topics

Electrocatalysts for Energy Conversion100%
Fuel Cells and Related Materials100%
Electrochemical Analysis and Applications100%

Keywords

Oxygen
Chemistry
Adsorption
Oxygen reduction reaction
Vertex (graph theory)
Photochemistry
Redox
Inorganic chemistry

UN Sustainable Development Goals

Clean water and sanitation

No related works found for this paper.

Funding

HP
Heilongjiang Postdoctoral Science Foundation
Award: LBH-Z22113
NN
National Natural Science Foundation of China
Awards: U23A20573, 22075062
KT
Key Technology Research and Development Program of Shandong
Award: 2022CXGC010305
FR
Fundamental Research Funds for the Central Universities
Award: FRFCU5710051922
SS
Shenzhen Science and Technology Innovation Program
Awards: JCYJ20210324120400002, 20220809194504001, SGDX20210823103803017
BA
Basic and Applied Basic Research Foundation of Guangdong Province
Award: 2022B1515120001