L
Lu Wang
Researcher at The Chinese University of Hong Kong
Publications - 143
Citations - 6590
Lu Wang is an academic researcher from The Chinese University of Hong Kong. The author has contributed to research in topics: Catalysis & Graphene. The author has an hindex of 36, co-authored 133 publications receiving 4264 citations. Previous affiliations of Lu Wang include Zhejiang University & University of Toronto.
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Journal ArticleDOI
Mechanical Exfoliation and Characterization of Single- and Few-Layer Nanosheets of WSe2, TaS2, and TaSe2
Hai Li,Gang Lu,Yanlong Wang,Zongyou Yin,Chunxiao Cong,Qiyuan He,Lu Wang,Feng Ding,Ting Yu,Hua Zhang +9 more
TL;DR: Interestingly, hexagonal- and monoclinic-structured WO₃ thin films are obtained during the local oxidation of thinner (1L-3L) and thicker (4L and 5L) WSe₂ nanosheets, while laser-burned holes are found during theLocal oxidation of the WSe ₂ single crystal.
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Greening Ammonia toward the Solar Ammonia Refinery
Lu Wang,Meikun Xia,Hong Wang,Kefeng Huang,Chenxi Qian,Christos T. Maravelias,Geoffrey A. Ozin +6 more
TL;DR: In light of the targets set out by the Paris Climate Agreement and the global energy sector's ongoing transition from fossil fuels to renewables, the chemical industry is searching for innovative ways of reducing greenhouse gas emissions associated with the production of ammonia as discussed by the authors.
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“Metal‐Free” Catalytic Oxygen Reduction Reaction on Heteroatom‐Doped Graphene is Caused by Trace Metal Impurities
TL;DR: It is argued that the claimed “metal-free” electrocatalysis of the oxygen reduction reaction on heteroatom-doped graphene is caused by metallic impurities present within the graphene materials.
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Role of Hydrogen in Graphene Chemical Vapor Deposition Growth on a Copper Surface
TL;DR: An insightful understanding reveals a crucial role of H in graphene CVD growth and paves a way for the controllable synthesis of BLG or FLG, and provides a reasonable explanation for the hydrogen pressure-dependent grapheneCVD growth behaviors on a Cu surface.
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Manageable N-doped graphene for high performance oxygen reduction reaction.
TL;DR: A feasible direct-synthesis method in preparing N-graphene with manageable N contents in a large scale is reported, and the result exhibits similar catalytic activity but superior stability compared to commercial Pt/C for ORR in an alkaline solution.