High loading accessible active sites<i>via</i>designable 3D-printed metal architecture towards promoting electrocatalytic performance

201948 citationsJournal Article

Authors

Shuai Chang · Harbin University

Xiaolei Huang · National University of Singapore

Chun Yee Aaron Ong · Engineering (Italy)

Liping Zhao · National Metrology Centre

Liqun Li · Harbin University

Xuesen Wang · National University of Singapore

Jun Ding ·

Abstract

3D printing of a tailor-designed support architecture with a tunable electrochemically active surface area for improving catalyst loading contributions to catalytic activity.

Topics & Keywords

Electrocatalysts for Energy Conversion Advanced Memory and Neural Computing Machine Learning in Materials Science

Publication Details

Published in: Journal of Materials Chemistry A

Volume 7, Issue 31, pp. 18338-18347

DOI: 10.1039/c9ta05161a

Field-Weighted Citation Impact: 1.22

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High loading accessible active sites<i>via</i>designable 3D-printed metal architecture towards promoting electrocatalytic performance

Authors

Abstract

Topics & Keywords

Publication Details