Single atom catalysts for triiodide adsorption and fast conversion to boost the performance of aqueous zinc–iodine batteries

Yang, Fuhua; Long, Jun; Yuwono, Jodie A.; Fei, Huifang; Fan, Yameng; Li, Peng; Zou, Jinshuo; Hao, Junnan; Liu, Sailin; Liang, Gemeng; Lyu, Yanqiu; Zheng, Xiaobo; Zhao, Shiyong; Davey, Kenneth; Guo, Zaiping

doi:10.1039/d3ee01453c

articleEnergy & Environmental ScienceJan 1, 2023GREEN OA

Single atom catalysts for triiodide adsorption and fast conversion to boost the performance of aqueous zinc–iodine batteries

FYFuhua Yang JLJun Long JAJodie A. Yuwono HFHuifang Fei YFYameng Fan

Helmholtz-Institute Ulm · The University of Adelaide · +4 more institutions

Indexed incrossref

Abstract

In this work, I − poisoning mechanism is proposed for SACs selection to suppress shuttle effect in Zn–I 2 batteries. It is found that I − formation and desorption are crucial to maintain the catalytic and adsorption role of metallic element.

Citation impact

196

total citations

FWCI: 24.36
Percentile: 100%
References: 44

Citations per year

Authors

FY
Fuhua Yang
Helmholtz-Institute Ulm, The University of Adelaide
JL
Jun Long
Tsinghua–Berkeley Shenzhen Institute, Tsinghua University
JA
Jodie A. Yuwono
The University of Adelaide
HF
Huifang Fei
Helmholtz-Institute Ulm
YF
Yameng Fan
University of Wollongong

Topics & keywords

Topics

Advanced battery technologies research100%
Advanced Battery Materials and Technologies100%
Advancements in Battery Materials100%

Keywords

Adsorption
Catalysis
Aqueous solution
Zinc
Triiodide
Iodine
Desorption
Inorganic chemistry

UN Sustainable Development Goals

Clean water and sanitation

No related works found for this paper.

Funding

NN
National Natural Science Foundation of China
Award: 52102276
AR
Australian Research Council
Awards: DP200101862, DP210101486, LE180100141, FL210100050, LP160101629