姜敏铭,男,1995年11月出生,博士,2026年世界杯官网讲师。2025年6月获南京航空航天大学材料科学与技术学院工学博士学位。2025年8月入职2026年世界杯奖杯官网。
近年来,主要从事包括力学、耐腐蚀和电解水性能在内的多功能涂层制备以及基于第一性原理计算的多尺度模拟等方面的研究工作。先后参与浙江省自然科学基金重点项目一项,并以第一作者在Angewandte Chemie-International Edition、Corrosion Science、Ceramics International、Applied Surface Science、International Journal of Hydrogen Energy等学术期刊上发表高水平SCI论文18篇,总被引次数超300余次。
主要研究领域:
[1]高力学性能及耐腐蚀高熵涂层
[2]电解水异质结涂层
[3]多尺度模拟
近年来承担和参与的主要科研项目:
[1]浙江省自然科学基金重点项目(LZ21E050001):基于跨尺度耦合的SiCO基全固态锂电池基础问题研究,已结题,主要参与人
近年来发表的代表性学术论著:
[1] Jiang M, Xu J, Zhou Q, et al. Rationally Designed Asymmetric Pt─ O─ Cu Ligand to Stabilize Active Sites Towards Superior Industrial‐Standard Alkaline Hydrogen Evolution[J]. Angewandte Chemie International Edition, 2025: e202510259.
[2] Jiang M, Xu J, Chen Y, et al. Interstitial doping in ultrafine nanocrystals for efficient and durable water splitting[J]. Angewandte Chemie, 2025, 137(14): e202424195.
[3] Jiang M, Xu J, Chen Y, et al. High‐Efficiency Photo‐Assisted Large Current‐Density Water Splitting with Mott‐Schottky Heterojunctions[J]. Angewandte Chemie, 2025, 137(3): e202415492.
[4] Zhou Q, Jiang M, Xu J, Xie Z H, et al. Enhancing Humidity Sensing with NiPS3: A Theoretical Study on Selectivity and Sensitivity[J]. Physica B: Condensed Matter, 2025: 417306.
[5] Zhou Q, Xu J, Peng S, Jiang M, et al. Gradient TiZrHfMoW/(Mo, W) N multilayer coatings formed via Mo/W segregation: Coherent interface architecture and toughening mechanisms[J]. Scripta Materialia, 2026, 270: 116943.
[6] Zhou Q, Jiang M, Xu J, et al. Mechanisms of superlubricity in WS2/Graphite Interfaces: A First-Principles study on Silicon-Based substrates[J]. Applied Surface Science, 2025, 686: 162109.
[7] Jiang M, Xu J, Liu C, et al. Enhanced corrosion resistance of NbTaMoW medium entropy alloy coatings in simulated PEMFC environments: Experimental and computational insights[J]. Corrosion Science, 2024, 240: 112499.
[8] Chen Y, Xu J, Jiang M(共一), et al. Enhancing Oxygen Evolution Reaction Performance: Electrochemical Activation of the Biphasic CoNi/Zn (Fe, Al, Cr) 2O4 via Controlled Aluminum Leaching Facilitated Surface Reconstruction[J]. Advanced Energy Materials, 2024, 14(9): 2303450.
[9] Jiang M, Xu J, Munroe P, et al. Light metal decorated graphene-like Si2BN monolayers as hydrogen storage media: A DFT investigation[J]. International Journal of Hydrogen Energy, 2024, 50: 865-878.
[10] Zhao Y, Jiang M, Xu J, et al. Effects of nitrogen concentration on the microstructure and mechanical properties of nanocrystalline (TiZrNbTaMo) N high-entropy nitride coatings: Experimental investigations and first-principles calculations[J]. Vacuum, 2024, 219: 112715.
[11] Xie S, Xu J, Jiang M(共一), et al. Boosting electrocatalytic water splitting of Mo-doped CoNi/FeCr2O4 heterojunctions via photothermal effects[J]. International Journal of Hydrogen Energy, 2024, 110: 144-158.
[12] Jiang M, Ma R, Xu J, et al. Fabrication of a Ag2O/SiO2/Ta2O5 nanocomposite coating for orthopaedic applications: Anticorrosion, photocatalytical and antimicrobial activities[J]. Ceramics International, 2023, 49(17): 28297-28312.
[13] Jiang M, Xu J, Munroe P, et al. First-principles study on the hydrogen storage properties of MgH2 (1 0 1) surface by CuNi co-doping[J]. Chemical Physics, 2023, 565: 111760.
[14] Jiang M, Xu J, Munroe P, et al. Lithium-decorated SiB monolayer for reversible hydrogen storage: High-capacity realization through strain engineering[J]. Applied Surface Science, 2023, 618: 156707.
[15] Jiang M, Xu J, Munroe P, et al. First-principles calculations of Li-decorated Dirac semimetal NP monolayer as a potential reversible hydrogen storage medium[J]. Materials Today Communications, 2023, 35: 106309.
[16] Jiang M, Xu J, Munroe P, et al. 1D/2D CdS/WS2 heterojunction photocatalyst: First-principles insights for hydrogen production[J]. Materials Today Communications, 2023, 35: 105991.
[17] Jiang M, Xu K, Liao N, et al. Effect of sputtering power on piezoresistivity and interfacial strength of SiCN thin films prepared by magnetic sputtering[J]. Ceramics International, 2022, 48(2): 2112-2117.
[18] Jiang M, Xu J, Munroe P, et al. Hydrogen storage capacity and reversibility of Li-decorated B4CN3 monolayer revealed by first-principles calculations[J]. International Journal of Hydrogen Energy, 2022, 47(90): 38271-38281.
[19] Jiang M, Xu J, Munroe P, et al. First-principles probing of Au-doped WS2 monolayer as a superb CO sensor with high selectivity and fast diffusion[J]. Materials Today Communications, 2022, 32: 103922.
[20] Jiang M, Xu J, Munroe P, et al. SnS2 monolayer as a promising candidate for NO2 sensor or capturer with high selectivity and sensitivity: a first-principles study[J]. Materials Science in Semiconductor Processing, 2022, 152: 107073.
[21] Jiang M, Xu J, Munroe P, et al. Augmented hydrogen adsorption on metal (Mg, Mn) doped α-phase TeO2: a DFT investigation[J]. International Journal of Hydrogen Energy, 2022, 47(40): 17835-17844.
[22] Xu K, Fan H, Jiang M. Theoretical calculation of investigating γ-CoV2O6-PdO and γ-CoV2O6 as highly hydrogen sensor[J]. Applied Surface Science, 2022, 588: 152988.
[23] Jiang M, Xu K, Liao N, et al. DFT investigation on highly selective NO2 sensing properties of MnPS3[J]. Applied Surface Science, 2021, 543: 148846.
[24] Jiang M, Zhang C, Liao N, et al. Self-cantilever phenomenon of graphite/graphenes micro/nano structure: Experiment and DFT simulation analysis[J]. Applied Surface Science, 2021, 545: 149009.
[25] Jiang M, Xu K, Liao N, et al. First principles investigation on selective hydrogen sensing properties of α-phase TeO2[J]. International Journal of Hydrogen Energy, 2021, 46(5): 4666-4672.
联系方式:
E-Mail: jiangminming@xmut.edu.cn
通讯地址:福建省厦门市集美区理工路600号2026年世界杯奖杯官网
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