M
Ming Li
Researcher at Southwest University
Publications - 125
Citations - 2215
Ming Li is an academic researcher from Southwest University. The author has contributed to research in topics: Density functional theory & Catalysis. The author has an hindex of 21, co-authored 121 publications receiving 1536 citations. Previous affiliations of Ming Li include Chongqing University & North China University of Science and Technology.
Papers
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Regulating Electron Density of NiFe-P nanosheets Electrocatalysts by a trifle of Ru for High-efficient Overall Water Splitting
TL;DR: In this article, the Ru-NiFe-P nanosheets on 3D self-supported nickel foam was developed by doping a small quantity of Ru into transition metals phosphates.
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Group IVB transition metal trichalcogenides: a new class of 2D layered materials beyond graphene
TL;DR: In this paper, the authors give an overview of the emerging area of 2D and 1D transition metal trichalcogenides and suggest future research directions related to these novel materials.
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Highly conductive and metallic cobalt-nickel selenide nanorods supported on Ni foam as an efficient electrocatalyst for alkaline water splitting.
TL;DR: This work offers an appropriate methodology and theoretical guidance to synthesize a bimetal-selenide electrocatalyst for water splitting and shows that the synergy between Co and Ni elements is beneficial for improving the internal structure of the catalyst, resulting in a high electrical conductivity, and low HER Gibbs free-energy and water adsorption energy.
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Tuning the electronic properties of transition-metal trichalcogenides via tensile strain
Ming Li,Jun Dai,Xiao Cheng Zeng +2 more
TL;DR: The highly tunable direct bandgaps of MS3 (M = Hf, Ti, and Zr) by strain and the availability of metallic and semiconducting properties of MTe3 provide exciting opportunities for designing artificial layered structures for applications in optoelectronics and flexible electronics.
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Electron-Deficient Pyrimidine Adopted in Porphyrin Sensitizers: A Theoretical Interpretation of π-Spacers Leading to Highly Efficient Photo-to-Electric Conversion Performances in Dye-Sensitized Solar Cells
TL;DR: In this article, the electron-deficient pyrimidine was adopted as an effective π-spacer and combined with a cyanoacrylic acid anchoring group, which yields a more bathochromic shift of the spectral absorption of the dye and results in an improved spectral overlap with the solar spectrum and an enhanced light-harvesting efficiency.