9 Papers
Jun Mao is an academic researcher from Dalian Institute of Chemical Physics. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 4, co-authored 5 publications. Previous affiliations of Jun Mao include Xiamen University.
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Papers
Catalysis with Two-Dimensional Materials Confining Single Atoms: Concept, Design, and Applications.
TL;DR: This Review systematically introduces and discusses the classic synthesis methods, advanced characterization techniques, and various catalytic applications toward two-dimensional materials confining single-atom catalysts.
892
Sulfur vacancy-rich MoS2 as a catalyst for the hydrogenation of CO2 to methanol
Jingting Hu,Jingting Hu,Liang Yu,Liang Yu,Deng Jiao,Deng Jiao,Deng Jiao,Yong Wang,Yong Wang,Kang Cheng,Chao Ma,Qinghong Zhang,Wu Wen,Shengsheng Yu,Yang Pan,Jiuzhong Yang,Hao Ma,Fei Qi,Yongke Wang,Yanping Zheng,Mingshu Chen,Rui Huang,Shuhong Zhang,Zhenchao Zhao,Zhenchao Zhao,Jun Mao,Jun Mao,Xiangyu Meng,Xiangyu Meng,Qinqin Ji,Qinqin Ji,Guangjin Hou,Guangjin Hou,Xiuwen Han,Xiuwen Han,Xinhe Bao,Xinhe Bao,Ye Wang,Dehui Deng,Dehui Deng,Dehui Deng +40 more
- 22 Mar 2021
TL;DR: In this article, the authors reported that CO2 can dissociate at sulfur vacancies in MoS2 nanosheets to yield surface-bound CO and O at room temperature, thus enabling a highly efficient low-temperature hydrogenation of CO2 to methanol.
437
Boosting hydrogen evolution on MoS2 via co-confining selenium in surface and cobalt in inner layer.
Zheng Zhilong,Zheng Zhilong,Liang Yu,Meng Gao,Xiya Chen,Wu Zhou,Chao Ma,Lihui Wu,Junfa Zhu,Xiangyu Meng,Jingting Hu,Jingting Hu,Yunchuan Tu,Si-Si Wu,Jun Mao,Jun Mao,Zhong-Qun Tian,Dehui Deng,Dehui Deng +18 more
TL;DR: Taking advantage of its tri-layer structure, a MoS2 nanofoam catalyst co-confining selenium in surface and cobalt in inner layer is reported, exhibiting an ultra-high large-current-density HER activity surpassing all previously reported heteroatom-dopedMoS2 catalysts.
Direct conversion of methane with O2 at room temperature over edge-rich MoS2
Jun Mao,Huan Liu,Xiaoju Cui,Xiangyu Meng,Yanping Zheng,Mingshu Chen,Yang Pan,Zhenchao Zhao,Guangjin Hou,Jingting Hu,Yanan Li,Guilan Xu,Rui Huang,Liang Yu,Dehui Deng +14 more
46
Boosting room-temperature conversion of methane via confining Cu atoms in ultrathin Ru nanosheets
TL;DR: In this paper , the authors showed that bi-coordinated bridge-site oxygen species generated on the Ru edge-confined Cu sites can dissociate the C-H bond of CH4 with a moderately low energy barrier and thus enable the CH4 conversion at room temperature via a free radical mechanism.
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