能源与动力工程学院
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讲师

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姓 名 马金龙 性 别
职 称 毕业学校
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联系方式
邮 箱 majinlong@hust.edu.cn
通讯地址 华中科技大学动力楼412室
个人资料简介
马金龙,博士,主要从事微尺度热输运、电输运、能量转换的理论研究以及第一性原理计算。

教育及工作经历

    2007.07-2011.06 华中科技大学,能源学院,热能与动力工程专业,学士
    2011.09-2016.06 华中科技大学,能源学院,工程热物理专业,博士
    2013.02-2013.08 香港科技大学,机械及航空航天工程系,访问
    2016.06-2019.05 深圳大学,高等研究院,博士后/专职研究员
    2019.06-至今    华中科技大学,能源学院,工程热物理系,讲师

研究方向

    热输运、电输运、电声耦合第一性原理计算,二维材料、热电材料、光电材料

科研项目

    1.    国家自然科学基金青年基金项目, 2019.01-2021.12,主持
    2.    中国博士后科学基金面目资助项目,2017.03-2018.05,主持

代表性论文与专利

    1.    J. Ma, F. Meng, J. He, Y. Jia, and W. Li, Strain induced ultrahigh electron mobility and thermoelectric figure of merit in monolayer α-Te, ACS Appl. Mater. Interfaces 12, 43901 (2020).
    2.    J. Ma, F. Meng, D. Xu, R. Hu, and X. Luo, Electron mobility and mode analysis of scattering for β-Ga2O3 from first principles, J. Phys. Condens. Matter 32, 465704 (2020).
    3.    S. Wen, J. Ma, A. Kundu, and W. Li, Large lattice thermal conductivity, interplay between phonon-phonon, phonon-electron, and phonon-isotope scatterings, and electrical transport in molybdenum from first principles, Phys. Rev. B 102, 064303 (2020).
    4.    J. Ma, D. Xu, R. Hu, and X. Luo, Examining two-dimensional Fröhlich model and enhancing the electron mobility of monolayer InSe by dielectric engineering, J. Appl. Phys. 128, 035107, (2020).
    5.    F. Meng, S. Sun, J. Ma, C. Chronister, J. He, and W. Li, Anisotropic thermoelectric figure-of-merit in Mg3Sb2, Mater. Today Phys. 13, 100217 (2020).
    6.    A. Kundu, J. Ma, J. Carrete, G. K. H. Madsen, and W. Li, Anomalously large lattice thermal conductivity in metallic tungsten carbide and its origin in the electronic structure, Mater. Today Phys. 13, 100214 (2020).
    7.    J. Ma, A. S. Nissmagoudar, S. Wang, and W. Li, High thermoelectric figure of merit of full-Heusler Ba2AuX (X=As, Sb, and Bi), Phys. Status Solidi RRL 14, 2000084 (2020).
    8.    B. Bongre, J. Carrete, S. Wen, J. Ma, W. Li, N. Mingo, and G. K. H. Madsen, Combined treatment of phonon scattering by electrons and point defects explains the thermal conductivity reduction in highly-doped Si, J. Matter. Chem. A 8, 1273 (2020).
    9.    Y. Chen, J. Ma, S. Wen, and W. Li, Body-centered-cubic structure and weak anharmonic phonon scattering in tungsten, npj Comput. Mater. 5, 98 (2019).
    10.    F. Meng, J. Ma, J. He, and W. Li, Phonon-limited carrier mobility and temperature-dependent scattering mechanism of 3C-SiC from first principles, Phys. Rev. B 99, 045201 (2019).
    11.    Y. Chen, J. Ma, and W. Li, Understanding the thermal conductivity and Lorenz number in tungsten from first principles, Phys. Rev. B 99, 020305(R) (2019).
    12.    J. Ma, Y. Chen, and W. Li, Intrinsic phonon-limited charge carrier mobilities in thermoelectric SnSe, Phys. Rev. B 97, 205207 (2018).
    13.    J. Ma, A. S. Nissimagoudar, and W. Li, First-principles study of electron and hole mobilities of Si and GaAs, Phys. Rev. B 97, 045201 (2018).
    14.    A. S. Nissimagoudar, J. Ma, Y. Chen, and W. Li, Thermal transport in monolayer InSe, J. Phys. Condens. Mat. 29, 335702 (2017).
    15.    J. Ma, Y. Chen, Z. Han, and W. Li, Strong anisotropic thermal conductivity of monolayer WTe2, 2D Mater. 3, 045010 (2016).
    16.    J. Ma, W. Li, and X. Luo, Intrinsic thermal conductivities and size effect of alloys of wurtzite AlN, GaN and InN from first-principles, J. Appl. Phys. 119, 125702 (2016).
    17.    J. Ma, W. Li, and X. Luo, Ballistic thermal transport in monolayer transition-metal dichalcogenides: Role of atomic mass, Appl. Phys. Lett. 108, 082102 (2016).
    18.    J. Ma, W. Li, and X. Luo, Intrinsic thermal conductivity and its anisotropy of wurtzite InN, Appl. Phys. Lett. 105, 082103 (2014).
    19.    J. Ma, W. Li, X. Luo, Examining the Callaway model for lattice thermal conductivity, Phys. Rev. B 90, 035203 (2014).
    20.    J. Ma. X. Wang, B. Huang, X. Luo, Effects of point defects and dislocations on spectral phonon transport properties of wurtzite GaN, J. Appl. Phys. 114, 074311 (2013).

所获荣誉和奖励

    1.    博士研究生国家奖学金
    2.    博士学位论文创新基金