From the journal:

Chemical Communications

Surface-Composition-Driven Patchy Carbon Shells Unlock High Activity and Durability in PtCu Oxygen Reduction Catalysts

Hyelim Park,   Keonwoo Ko,   Yunjin Kim,   Sourabh Sunil Chougule,   Abhishek A Chavan,   Jaemin Kim,   Yeongeun Im,   Hun Kim,   Wonhong Choi,   Kwang Bok Yi  and  Namgee Jung  

Abstract

Low-temperature CO treatment induces Pt surface segregation in carbon-incorporated PtCu nanoparticles, creating Pt-rich surface domains that localize carbon growth. Subsequent high-temperature Ar treatment forms a patchy carbon shell, enabling selective near-surface Cu dealloying, boosting oxygen reduction reaction (ORR) activity while suppressing particle degradation and markedly improving durability.

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Article information

DOI
https://doi.org/10.1039/D5CC07184D
Article type
Communication
Submitted
17 Dec 2025
Accepted
26 Jan 2026
First published
26 Jan 2026

Chem. Commun., 2026, Accepted Manuscript

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Surface-Composition-Driven Patchy Carbon Shells Unlock High Activity and Durability in PtCu Oxygen Reduction Catalysts

H. Park, K. Ko, Y. Kim, S. S. Chougule, A. A. Chavan, J. Kim, Y. Im, H. Kim, W. Choi, K. B. Yi and N. Jung, Chem. Commun., 2026, Accepted Manuscript , DOI: 10.1039/D5CC07184D

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