N
Neng Li
Researcher at Wuhan University of Technology
Publications - 166
Citations - 9809
Neng Li is an academic researcher from Wuhan University of Technology. The author has contributed to research in topics: Chemistry & Density functional theory. The author has an hindex of 40, co-authored 131 publications receiving 5515 citations. Previous affiliations of Neng Li include University of Cambridge & Aberystwyth University.
Papers
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Photocatalytic fixation of nitrogen to ammonia: state-of-the-art advancements and future prospects
TL;DR: In this paper, the state-of-the-art engineering of efficient photocatalysts for dinitrogen (N2) fixation toward NH3 synthesis is reviewed and the challenges, outlooks and future prospects at the forefront of this research platform are presented.
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Surface and Heterointerface Engineering of 2D MXenes and Their Nanocomposites: Insights into Electro- and Photocatalysis
TL;DR: In this paper, a review of 2D transition metal transition metal carbides, nitrides, and carbonitrides (MXenes) is presented, highlighting the expeditious advances and achievements in design strategies, physico-chemical properties, and catalytic applications of two-dimensional layered MXenes and their nanocomposites.
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Nitrogen-doped Ti3C2Tx MXene electrodes for high-performance supercapacitors
Yangyang Wen,Yangyang Wen,Thomas E. Rufford,Xingzhu Chen,Neng Li,Miaoqiang Lyu,Liming Dai,Lianzhou Wang +7 more
TL;DR: In this article, a new type of nitrogen-doped two-dimensional MXene (N-Ti3C2Tx) was synthesized by post-etch annealing in ammonia as a promising electrode material for supercapacitors.
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Interface Engineering of Hierarchical Branched Mo‐Doped Ni3S2/NixPy Hollow Heterostructure Nanorods for Efficient Overall Water Splitting
Xu Luo,Pengxia Ji,Pengyan Wang,Ruilin Cheng,Ding Chen,Can Lin,Jianan Zhang,Jianwei He,Zuhao Shi,Neng Li,Shengqiang Xiao,Shichun Mu +11 more
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Promising prospects for 2D d2–d4 M3C2 transition metal carbides (MXenes) in N2 capture and conversion into ammonia
TL;DR: In this paper, the first proton-electron transfer is found to be the rate-determining step for the whole process, with an activation barrier of only 0.64 eV vs.