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    論文題目  Enhanced Hydrogen Evolution Catalysis of Pentlandite due to the Increases in Coordination Number and Sulfur Vacancy during Cubic-Hexagonal Phase Transition 
    論文題目(英文) Enhanced Hydrogen Evolution Catalysis of Pentlandite due to the Increases in Coordination Number and Sulfur Vacancy during Cubic-Hexagonal Phase Transition 
    作者 Liu, Yuegao(1);Cai, Chao(2);Zhu, Shengcai(3);Zheng, Zhi(1);Li, Guowu(4);Chen, Haiyan(5,6);Li, Chao(7);Sun, Haiyan(1);Chou, I-Ming(1);Yu, Yanan(8);Mei, Shenghua(1);Wang, Liping(9) 
    發(fā)表年度 2024-03-08 
     
     
    頁(yè)碼 11 
    期刊名稱(chēng) SMALL 
    摘要  
    摘要_英文 The search for new phases is an important direction in materials science. The phase transition of sulfides results in significant changes in catalytic performance, such as MoS2 and WS2. Cubic pentlandite [cPn, (Fe, Ni)9S8] can be a functional material in batteries, solar cells, and catalytic fields. However, no report about the material properties of other phases of pentlandite exists. In this study, the unit-cell parameters of a new phase of pentlandite, sulfur-vacancy enriched hexagonal pentlandite (hPn), and the phase boundary between cPn and hPn are determined for the first time. Compared to cPn, the hPn shows a high coordination number, more sulfur vacancies, and high conductivity, which result in significantly higher hydrogen evolution performance of hPn than that of cPn and make the non-nano rock catalyst hPn superior to other most known nanosulfide catalysts. The increase of sulfur vacancies during phase transition provides a new approach to designing functional materials. New mineral: the sulfur-vacancies enriched P63/mmc hexagonal pentlandite (hPn) is discovered. The hydrogen evolution performance of the non-nano rock catalyst hPn is better than that of cPn and most known nanosulfide catalysts. image