Works by Tseng, Jochi

Results: 15
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    Inside Front Cover: Exploring the Mechanism of Surface Cationic Vacancy Induces High Activity of Metastable Lattice Oxygen in Li‐ and Mn‐Rich Cathode Materials (Angew. Chem. Int. Ed. 21/2025).

    Published in:
    Angewandte Chemie International Edition, 2025, v. 64, n. 21, p. 1, doi. 10.1002/anie.202508980
    By:
    • Zhao, Tian;
    • Zhang, Jilu;
    • Wang, Kai;
    • Xiao, Yao;
    • Wang, Qin;
    • Li, Longfei;
    • Tseng, Jochi;
    • Chen, Meng‐Cheng;
    • Ma, Jian‐Jie;
    • Lu, Ying‐Rui;
    • Hirofumi, Ishii;
    • Shao, Yu‐Cheng;
    • Zhao, Xiaoxian;
    • Hung, Sung‐Fu;
    • Su, Yaqiong;
    • Mu, Xiaoke;
    • Hua, Weibo
    Publication type:
    Article
    5

    Exploring the Mechanism of Surface Cationic Vacancy Induces High Activity of Metastable Lattice Oxygen in Li‐ and Mn‐Rich Cathode Materials.

    Published in:
    Angewandte Chemie International Edition, 2025, v. 64, n. 21, p. 1, doi. 10.1002/anie.202419664
    By:
    • Zhao, Tian;
    • Zhang, Jilu;
    • Wang, Kai;
    • Xiao, Yao;
    • Wang, Qin;
    • Li, Longfei;
    • Tseng, Jochi;
    • Chen, Meng‐Cheng;
    • Ma, Jian‐Jie;
    • Lu, Ying‐Rui;
    • Hirofumi, Ishii;
    • Shao, Yu‐Cheng;
    • Zhao, Xiaoxian;
    • Hung, Sung‐Fu;
    • Su, Yaqiong;
    • Mu, Xiaoke;
    • Hua, Weibo
    Publication type:
    Article
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    Inside Front Cover: Exploring the Mechanism of Surface Cationic Vacancy Induces High Activity of Metastable Lattice Oxygen in Li‐ and Mn‐Rich Cathode Materials (Angew. Chem. 21/2025).

    Published in:
    Angewandte Chemie, 2025, v. 137, n. 21, p. 1, doi. 10.1002/ange.202508980
    By:
    • Zhao, Tian;
    • Zhang, Jilu;
    • Wang, Kai;
    • Xiao, Yao;
    • Wang, Qin;
    • Li, Longfei;
    • Tseng, Jochi;
    • Chen, Meng‐Cheng;
    • Ma, Jian‐Jie;
    • Lu, Ying‐Rui;
    • Hirofumi, Ishii;
    • Shao, Yu‐Cheng;
    • Zhao, Xiaoxian;
    • Hung, Sung‐Fu;
    • Su, Yaqiong;
    • Mu, Xiaoke;
    • Hua, Weibo
    Publication type:
    Article
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    Reaction-driven formation of anisotropic strains in FeTeSe nanosheets boosts low-concentration nitrate reduction to ammonia.

    Published in:
    Nature Communications, 2025, v. 16, n. 1, p. 1, doi. 10.1038/s41467-025-58940-x
    By:
    • Liu, Jiawei;
    • Xu, Yifan;
    • Duan, Ruihuan;
    • Zhang, Mingsheng;
    • Hu, Yue;
    • Chen, Mengxin;
    • Han, Bo;
    • Dong, Jinfeng;
    • Lee, Carmen;
    • Kumara, Loku Singgappulige Rosantha;
    • Seo, Okkyun;
    • Tseng, Jochi;
    • Watanabe, Takeshi;
    • Liu, Zheng;
    • Zhu, Qiang;
    • Xu, Jianwei;
    • Ng, Man-Fai;
    • Wu, Dongshuang;
    • Yan, Qingyu
    Publication type:
    Article
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