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Frontispiz: A Supported Nickel Catalyst Stabilized by a Surface Digging Effect for Efficient Methane Oxidation
Author(s) -
Zhou Huang,
Liu Tianyang,
Zhao Xuyan,
Zhao Yafei,
Lv Hongwei,
Fang Shi,
Wang Xiaoqian,
Zhou Fangyao,
Xu Qian,
Xu Jie,
Xiong Can,
Xue Zhenggang,
Wang Kai,
Cheong WengChon,
Xi Wei,
Gu Lin,
Yao Tao,
Wei Shiqiang,
Hong Xun,
Luo Jun,
Li Yafei,
Wu Yuen
Publication year - 2019
Publication title -
angewandte chemie
Language(s) - German
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201985161
Subject(s) - catalysis , digging , nickel , methane , chemistry , anaerobic oxidation of methane , chemical engineering , nanotechnology , materials science , organic chemistry , engineering , archaeology , history
Methan‐Oxidation In ihrer Zuschrift auf S. 18559 beschreiben J. Luo, Y. Li, Y. Wu et al., wie sich Ni‐Nanopartikel in einen N‐dotierten Kohlenstoffträger eingraben. Die Ni‐NPs lassen sich in Metalldefektzentren überführen, welche die C‐H‐Aktivierung in Methan katalysieren.

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