Unmarried-atom Co dispersed on polyoxometalate derivatives confined in bamboo-like carbon nanotubes enabling environment friendly dual-site lattice oxygen mediated oxygen evolution electrocatalysis for acidic water electrolyzers

April 19, 2024 In Unkategorisiert By Jianyun Liu

Unmarried-atom Co dispersed on polyoxometalate derivatives confined in bamboo-like carbon nanotubes enabling environment friendly dual-site lattice oxygen mediated oxygen evolution electrocatalysis for acidic water electrolyzers

Energy Environ. Sci., 2024, Advance Article
DOI: 10.1039/D4EE00173G, Paper

Jianyun Liu, Tanyuan Wang, Zijie Lin, Mengyi Liao, Shuxia Liu, Shiyu Wang, Zhao Cai, Hao Sun, Yue Shen, Yunhui Huang, Qing Li
In situ generated confined single-atom Co³⁺ sites with a low coordination number and abundant oxygen vacancies demonstrate enhanced stability and activity for acidic oxygen evolution with broken scaling relations.
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Unmarried-atom Co dispersed on polyoxometalate derivatives confined in bamboo-like carbon nanotubes enabling environment friendly dual-site lattice oxygen mediated oxygen evolution electrocatalysis for acidic water electrolyzers

Unmarried-atom Co dispersed on polyoxometalate derivatives confined in bamboo-like carbon nanotubes enabling environment friendly dual-site lattice oxygen mediated oxygen evolution electrocatalysis for acidic water electrolyzers

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