5123导航取五湖之利取四-欢迎莅临

职称:副教授

电话:010-62799652

E-mail address:maweigang@tsinghua.edu.cn

个人简介

马维刚,甘肃环县人,清华大学副教授,博士生导师。现任中国工程热物理学会传热传质青年委员会主任、国际传热传质中心(ICHMT)科学委员会委员、《Journal of Thermal Science》传热传质学科编辑。曾获国际传热传质中心Hartnett-Irvine Award(2018)、亚洲热物性研究青年科学家奖(2019)、教育部自然科学一等奖(2018)、清华大学大学生研究训练计划优秀指导教师一等奖(2016)等奖励。主要研究领域为微纳尺度热测量、能量高效转换与存储(离子热电与固态电池),微电子器件热设计,医工交叉研究。

马维刚副教授课题组正招收微纳尺度传热传质方向及交叉学科(物理、化工、材料、医学等)的博士和硕士研究生,联合培养研究生和博士后研究人员,欢迎热爱科学、愿意投身科研的有志青年联系。

教育背景

2002年9月—2006年7月,澳门所有娱乐官方网站链,获工学学士学位

2006年9月—2012年1月,澳门所有娱乐官方网站链,获工学博士学位

工作履历

2012年1月—2013年12月,澳门所有娱乐官方网站链 博士后

2012年4月—2012年7月,日本九州大学 访问学者

2013年12月—2014年12月,澳门所有娱乐官方网站链 讲师

2014年12月—至今,澳门所有娱乐官方网站链 副教授

学术兼职

现任:

中国工程热物理学会传热传质青年委员会主任

国际传热传质中心(ICHMT)科学委员会委员

《Journal of Thermal Science》传热传质学科编辑

曾任:

第16届国际传热大会副编辑

《Applied Thermal Engineering》专刊客座编辑

第7届国际微纳技术会议学术委员会委员

第6届国际微纳技术会议学术委员回委员

第1届国际传热与能源青年学者研讨会秘书长

第2届热科学与工程中的测量技术国际会议组委会委员

第1届热科学与工程中的测量技术国际会议组委会委员

第12届亚洲热物性大会分会场主席

研究领域

微纳尺度传热与热测量

能量高效转换与存储(离子热电与固态电池)

微电子器件热设计

医工交叉

研究概况

主要从事致力于微纳尺度能量输运、转换及医工交叉研究,包括微纳尺度能量输运性质测量(综合T型法,TDTR,拉曼闪光),热电、液电材料开发与研究,固态电池开发和医工交叉等,在Nature Communications,ACS Nano,Nano Energy等期刊发表SCI论文100余篇,在国际/国内会议作特邀报告10余次。主持国家自然科学基金、教育部联合研究基金、智能基础研究计划技术领域基金、清华大学自主科研计划等多项项目,作为学术骨干参加国家重点研发计划项目、国家自然科学基金重大项目、重点项目和仪器设备专项等,和业界也保持密切联系。

已毕业研究生和出站博士后:

博士后:赤骋(2022,华北电力大学副教授)、安盟(2022,东京大学JSPS博士后)

博士:宋东兴(2022,郑州大学研究员)、祁欣(2021,北京流体动力科学研究中心)

硕士:陆阳(2022,华为公司)、王秀奇(2021,山西省工信厅)、于冬威(2020,某发射基地)、石少义(2019,华为公司)、董诚(2019,大疆公司)

奖励与荣誉

[1] 2019,亚洲热物性研究青年科学家奖

[2] 2018,国际传热传质中心Hartnett-Irvine Award

[3] 2018,教育部自然科学奖一等奖(排名第3)

[4] 2016,清华大学大学生研究训练计划优秀指导教师一等奖

[5] 2012,第三届国际传热论坛“Best Presentation Award”

学术成果

发表SCI论文100余篇,应邀做国际/国内学术会议特邀报告10余次。

1. Chi C, An M, Qi X, Li Y, Zhang R H, Liu G Z, Lin C J, Huang H, Dang H, Demir B, Wang Y, Ma W G*, Huang B L*, Zhang X, Selectively tuning ionic thermopower in all-solid-state flexible polymer composites for thermal sensing, Nature Communications, 13:221, 2022.

2. Song D X, Chi C, An M, Du Y Z, Ma W G*, Wang K, Zhang X, Ionic Seebeck coefficient and figure of merit in ionic thermoelectric materials, Cell Reports Physical Science, https://doi.org/10.1016/j.xcrp.2022.101018.

3. Dang H, Zhang Q, Lu Y, Zhang X, Ma W G*, Zhang X, Optimizing the heat source layout of chips using bionic method: Reduction of junction temperature, International Journal of Heat and Mass Transfer, 197:123321, 2022.

4. Lu Y, Tan X, Du Y Z, Ma D L, Ma W G*, Direct observation of ultrafast carrier coupling dynamics in monolayer graphene/metal system, International Journal of Heat and Mass Transfer, 197:123322, 2022.

5. Luo S T, Liu X Y, Zhang X, Wang X F, Wang Z Y, Zhang Y F, Wang H D, Ma W G, Zhu L Y, Zhang X, Nanostructure of the interphase layer between a single Li dendrite and sulfide electrolyte in all-solid-state Li batteries, ACS Energy Letters, 7: 3064-3071, 2022.

6. Fan A R, Li Y P, Ma W G, Wang H D, Zhang X, Opto-electric flash Raman method for in situ measuring temperature variation of power device with a high temporal resolution, Applied Thermal Engineering, 217:119190, 2022.

7. Wang X Q, An M, Ma W G*, Zhang X, Tunable anisotropic lattice thermal conductivity in one-dimensional superlattices from molecular dynamics simulations, Journal of Thermal Science, 31:1068-1075, 2022.

8. Du Y Z, Shi S Y, Miao T T, Ma W G, Mai L Q, Zhang X, Thermoelectric properties of an individual suspended single-crystalline Sb2Se3 nanowire, Journal of Thermal Science, 31:1106-1114, 2022.

9. Miao T T, Liu Z Y, Chen D S, An M, Ma W G, Regulatable thermal conductivity and excellent mass transport of water-filled carbon nanotube as capillary wicks, International Journal of Heat and Mass Transfer, 197:123211, 2022.

10. Zhang C, Wang K W, Xie K F, Han X Q, Ma W G, Li X G, Teng G X, Controllable preparation of hierarchical MnCo bimetallic photocatalyst and the effect of atomic ratio on its photocatalytic activity, Chemical Engineering Journal, 446:136907, 2022.

11. Zhao C Y, Song D X, An M, Ma W G*, Zhang X, Insights of the ionic transport in intercalated two-dimensional materials leveraging lattice dynamics, Journal of Physical Chemistry C, 126:10209-10215, 2022.

12. Sun H S, Liang X G, Ma W G, Zhang Y F, Qiu C, Ma Y G, Method and device for measuring high-temperature spectral emissivity of non-conductive materials based on laser rotation heating, Spectroscopy and Spectral Analysis, 42:310-315, 2022.

13. Lu H J, Jian M Q, Yin Z, Xia K L, Shi S Y, Zhang M C, Wang H M, Liang X P, Ma W G, Zhang X, Zhang Y Y, Silkworm silk fibers with multiple reinforced properties obtained through feeding ag nanowires, Advanced Fiber Materials, 4:547-555, 2022.

14. Lin Z Z, Dang H, Zhao C Y, Du Y Z, Chi C, Ma W G*, Li Y S*, Zhang X, The cross-interface energy-filtering effect at organic/inorganic interfaces balances the trade-off between thermopower and conductivity, Nanoscale, 14:9419, 2022.

15. Lin Z Z, Du Y Z, Li P, Chi C, Lu Y, Dang H, Song D X, Ma W G*, Li Y S*, Zhang X, in situ triggering metallicity in 3D graphene via constructing wrinkle configuration, Applied Physics Letters, 120:203503, 2022.

16. Lin Z Z, Du Y Z, Chi C, Dang H, Song D X, Ma W G*, Li Y S*, Zhang X, Energy-dependent carrier scattering at weak localizations leading to decoupling of thermopower and conductivity, Carbon, 194:62-71, 2022.

17. Dang H, Song D X, Lin Z Z, An M, Ma W G*, Zhang X, Effect of axial electric field on confined water in carbon nanotube: Enhancement of thermophoresis, International Journal of Heat and Mass Transfer, 190:122751, 2022.

18. An M, Wang H T, Yuan Y J*, Chen D S, Ma W G*, Sharshir S W, Zheng Z H, Zhao Y X*, Zhang X, Strong phonon coupling induces low thermal conductivity of one-dimensional carbon boron nanotube, Surfaces and Interfaces, 28:101690, 2022.

19. Miao T T, Xiang M X, Chen D S, An M, Ma W G, Thermal transport characteristics of two-dimensional t-PdTe2 and its Janus structures, International Journal of Heat and Mass Transfer, 183:122099, 2022.

20. Li F Y, Ma W G, Zhang X, Prediction of the thermal conductivity of H2/CO2/CO/CH4/H2O mixtures at high temperatures and high pressures based on the extended corresponding states principle, International Journal of Thermophysics, 43:121, 2022.

21. Luo S T, Fan A R, Zhang Y F, Wang H D, Ma W G, Zhang X, Dual-wavelength flash Raman mapping method for measuring the thermal diffusivity of a single supported nanowire, International Journal of Heat and Mass Transfer, 184:122271, 2022.

22. Zheng J Y, Miao T T, Xu R, Ping X F, Wu Y Y, Lu Z X, Zhang Z M, Hu D K, Liu L N, Zhang Q, Li D W, Cheng Z H, Ma W G, Xie L M, Jiao L Y, Chemical synthesis and integration of highly conductive PdTe2 with low-dimensional semiconductors for p-type transistors with low contact barriers, Advanced Materials, 33:2101150, 2021.

23. Xu Y T, Zhang G, Luo Z L, Qi X, Ma W G, Xu C J, Liu C H, Yao W, Investigation of dropwise condensation on a super-aligned carbon nanotube mesh-coated surface, Langmuir, 37:2629-2638, 2021.

24. Luo S T, Wang Z Y, Li X L, Liu X Y, Wang H D, Ma W G, Zhang L Q, Zhu L Y, Zhang X, Growth of lithium-indium dendrites in all-solid-state lithium-based batteries with sulfide electrolytes, Nature Communications, 12:6968, 2021.

25. Li F Y, Ma W G, Jin H, Zhang X, Guo L J, Experimental measurements on chemical reaction and thermal conductivity of the H2/CO2/CO/CH4/H2O system using the short-hot-wire method at 664-915 K and 9.2-22.2 MPa, International Journal of Heat and Mass Transfer, 177:121554, 2021.

26. Cheng S Y, Li F Y, Shang F, Ma W G, Jin H, Sakoda N, Zhang X, Guo L J, A review of experimental researches on the thermophysical properties of hydrogen-containing mixtures at high temperatures and high pressures, Journal of Chemical and Engineering Data, 66:3361-3385, 2021.

27. Tang Z L, Song D X, Ma W G*, Zhang X, Two-level synergistic scatterings from porosity and particle aggregation in Cu nanofluids for the enhancement of solar thermal conversion, Journal of Molecular Liquids, 342:116940, 2021.

28. Song D X, Chen X, Lin Z Z, Tang Z L, Ma W G*, Zhang Q*, Li Y S, Zhang X, Usability identification framework and high-throughput screening of two-dimensional materials in lithium ion batteries, ACS Nano, 15:16469-16477, 2021.

29. Song D X, Ma W G*, and Zhang X, Insight into the activation energy for the interfacial stability evaluation in all-solid-state Li-ion batteries, Journal of Power Sources, 506:230211, 2021.

30. Shan Z Y, Xian H J, Jia L, Ma W G*, Zhang H, Zhang X, Wang W H, Size effect of the heat transfer in palladium-based metallic glass nanofilms, Journal of Alloys and Compounds, 882:160748, 2021.

31. Wang X Q, An M, Zou J H, Ma W G*, Zhang X, Large-scale preparation of thermal anisotropic macroscopic layered metallic materials by a mechanical rolling method, International Journal of Heat and Mass Transfer, 171:121059, 2021.

32. Yang F L, Hegh D, Song D X, Zhang J Z, Usman K A, Wang Z Y, Zhang P, Ma W G*, Yang W R, Qin S*, Razal J M*, A nitrogenous pre-intercalation strategy for the synthesis of nitrogen-doped Ti3C2Tx MXene with enhanced electrochemical capacitance, Journal of Materials Chemistry A, 9:6393-6401, 2021.

33. Zhang C*, Jin X D, Wang L P, Jin C Z, Han X Q, Ma W G*, Li X G, Teng G X*, Hollow MnFe2O4@C@APBA nanospheres with size exclusion and pH response for efficient enrichment of endogenous glycopeptides, ACS Applied Materials & Interfaces, 13:9714-9728, 2021.

34. Song D X, Du Y Z, Ma W G*, Zhang X, High rate and capacity performances of functionalized Mxene/graphene heterostructure anodes for magnesium-ion batteries, International Journal of Energy Research, 45:3421-3429, 2021.

35. Zhang R H, Raveendran V, He Y N, Yan A, Chang A, Chi C, Bong S, Cheng F, Ma W G, Chen J, A poriferous nanoflake-assembled flower-like Ni5P4 anode for high-performance sodium-ion batteries, Energy Material Advances, 2021:2124862, 2021.

36. Luo S T, Wang Z Y, Fan A R, Liu X Y, Wang H D, Ma W G, Zhu L Y, Zhang X, A high energy and power all-solid-state lithium battery enabled by modified sulfide electrolyte film, Journal of Power Sources, 485:229325, 2021.

37. Fan A R, Hu Y D, Zhang Y F, Ma W G, Zhang X, Preparation and water flow velocity measurement of a large diameter single-wall carbon nanotube, Nano Futures, 5:015003, 2021.

38. Qi X, Miao T T, Chi C, Zhang G, Zhang C, Du Y Z, An M, Ma W G*, Zhang X, Ultralight PEDOT:PSS/graphene oxide composite aerogel sponges for electric power harvesting from thermal fluctuations and moist environment, Nano Energy, 77:105096, 2020.

39. Li P, Liu Y J, Shi S Y, Xu Z*, Ma W G*, Wang Z Q, Liu S P, Gao C*, Highly crystalline graphene fibers with superior strength and conductivities by plasticization spinning, Advanced Functional Materials, 30:2006584, 2020.

40. Song D X, Ma W G*, Zhang X, Correlated migration of ions in a 2D heterostructure anode: Guaranteeing a low barrier for a high site occupancy, Journal of Materials Chemistry A, 8:17463-17470, 2020.

41. Chi C, Li D Z, Li Y, Qi X, Huang H, Wang Q, Lin C J, Zhang X, Ma W G*, Huang B L*, Silicon-nanoforest-based solvent-free micro-supercapacitors with ultrahigh spatial resolution via IC-compatible in situ fabrication for on-chip energy storage, Journal of Materials Chemistry A, 8:22736-22744, 2020.

42. Song D X, Du Y Z, Ma W G*, Zhang X, Hybrid percolation network in composite for selectively enhancing electrical and thermal conductivities, International Journal of Heat and Mass Transfer, 147:119014, 2020.

43. Zhang C*, Gu Y A, Teng G X, Wang L P, Jin X D, Qiang Z W, Ma W G*, Fabrication of a double-shell Ag/AgCl/G-ZnFe2O4 nanocube with enhanced light absorption and superior photocatalytic antibacterial activity, ACS Applied Materials & Interfaces, 12:29883-29898, 2020.

44. Qi X, Xu H, Wang X Q, Ma W G*, Qiu C, An M, Zhang G*, Wang F, Zhang X, Bermak A, Effective surface emissivity and heat dissipation among integrated bamboo-like super-black vertical carbon nanotube array electrodes in silicon via holes, Carbon, 158:846-856, 2020.

45. Zhang Y F, Fan A R, An M, Ma W G, Zhang X, Thermal transport characteristics of supported carbon nanotube: Molecular dynamics simulation and theoretical analysis, International Journal of Heat and Mass Transfer, 159:120111, 2020.

46. Song D X, Xie L, Zhang Y F, Lu Y, An M, Ma W G*, Zhang X, Multilayer ion load and diffusion on TMD/Mxene heterostructure anodes for alkali-ion batteries, ACS Applied Energy Materials, 3:7699-7709, 2020.

47. Li F Y, Shang F, Cheng S Y, Ma W G, Jin H, Zhang X, Guo L J, Thermal conductivity measurements of the H2/CO2 mixture using the short-hot-wire method at 323.15-620.05 K and 2.14-9.37 MPa, International Journal of Hydrogen Energy, 45:31213-31224, 2020.

48. Hu Y D, Fan A R, Liu J H, Wang H D, Ma W G, Zhang X, A dual-wavelength flash Raman method for simultaneously measuring thermal diffusivity and line thermal contact resistance of an individual supported nanowire, Thermochimica Acta, 683:178473, 2020.

49. Gu Y N, Teng G X, Jin X D, Wang L P, Qiang Z W, Ma W G*, Zhang C*, Shape-controlled synthesis of coral-like ZnO/C-ZnFe2O4 hierarchical structures and their improved photocatalytic antibacterial efficiency under visible light illumination, Industrial & Engineering Chemistry Research, 59:11219-11231, 2020.

50. Cheng S Y, Shang F, Ma W G, Jin H, Sakoda N, Zhang X, Guo L J, Viscosity measurements of the H2-CO2, H2-CO2-CH4, and H2-H2O mixtures and the H2-CO2-CH4-CO-H2O system at 280-924 K and 0.7-33.1 MPa with a capillary apparatus, Journal of Chemical and Engineering Data, 65:3834-3847, 2020.

51. Cheng S Y, Shang F, Ma W G, Jin H, Sakoda N, Zhang X, Guo L J, PVT measurements of the H2-CO2-CH4-CO-H2O system at 740-939 K and 18.1-34.7 MPa with an isochoric apparatus and the development of a virial equation of state, Journal of Chemical and Engineering Data, 65:4881-4891, 2020.

52. Cheng S Y, Ma W G, Sakoda N, Zhang X, Thermodynamic calculations of the critical points of the H2-CO2-CH4-CO-H2O system, International Journal of Thermophysics, 41:141, 2020.

53. Chen D S, Chen H F, Hu S Q, Guo H, Sharshir S W, An M*, Ma W G*, Zhang X, Influence of atomic-scale defect on thermal conductivity of single-layer MoS2 sheet, Journal of Alloys and Compounds, 831:154875, 2020.

54. An M, Li L F, Hu S Q*, Ding Z D, Yu X X, Demir B, Yang N*, Ma W G*, Zhang X, Mass difference and polarization lead to low thermal conductivity of graphene-like carbon nitride (C3N), Carbon, 162:202-208, 2020.

55. Zhang Y F, Fan A R, Luo S T, Wang H D, Ma W G, Zhang X, Suspended 2D anisotropic materials thermal diffusivity measurements using dual-wavelength flash Raman mapping method, International Journal of Heat and Mass Transfer, 145:118795, 2019.

56. Zhang G, Duan Z, Qi X, Xu Y T, Li L, Ma W G, Zhang H, Liu C H, Yao W, Harvesting environment energy from water-evaporation over free-standing graphene oxide sponges, Carbon, 148:1-8, 2019.

57. Zhang C*, Jin C Z, Teng G X, Gu Y N, Ma W G*, Controllable synthesis of hollow MnFe2O4 by self-etching and its application in high-performance anode for lithium-ion batteries, Chemical Engineering Journal, 365:121-131, 2019.

58. Wu J C, An M, Ma W G, Spontaneous rectification and absolute negative mobility of inertial Brownian particles induced by Gaussian potentials in steady laminar flows, Soft Matter, 15:7187-7194, 2019.

59. Wang X Q, Shi S Y, Qi X, Wu D, Ma W G*, Zhang X, Thermoelectric properties of single crystal EuBiSe3 fiber, Nanoscale and Microscale Thermophysical Engineering, 23:200-210, 2019.

60. Song D X, Zhang Y F, Ma W G*, Zhang X, Role of electron-phonon coupling in thermal conductivity of metallic nanofluids, Journal of Physics D-Applied Physics, 52:485302, 2019.

61. Song D X, Ma W G*, Zhang X, Lattice thermal conductivity of Si/Ge composite thermoelectric material: Effect of Si particle distribution, International Journal of Energy Research, 43:379-390, 2019.

62. Song D X, Ma W G*, Zhang X, Anisotropic thermal conductivity in ferrofluids induced by uniform cluster orientation and anisotropic phonon mean free path, International Journal of Heat and Mass Transfer, 138:1228-1237, 2019.

63. Song D X, Ma W G*, Zhang X, Thermal conductivity in highly loaded metallic nanowire-dielectric composite: Effect of percolation network, Chemical Physics Letters, 731:136630, 2019.

64. Song D X, Jing D W, Ma W G*, Zhang X, Effect of particle aggregation on thermal conductivity of nanofluids: Enhancement of phonon MFP, Journal of Applied Physics, 125:015103, 2019.

65. Miao T T, Yu D W, Xing L, Li D W, Jiao L Y, Ma W G*, Zhang X, Current rectification in a structure: ReSe2/Au contacts on both sides of ReSe2, Nanoscale Research Letters, 14:1, 2019.

66. Miao T T, Li D W, Wang X S, Ma W G*, Zhang X, Ultraweak influence of strong magnetic field on electrical and thermal transport properties of a polycrystalline gold nanoribbon, Physical Review B, 100:235402, 2019.

67. Liu J H, Liu H, Ma W G, Zhang X, Non-contact T-type Raman method for measurement of thermophysical properties of micro-/nanowires, Review of Scientific Instruments, 90:044901, 2019.

68. Li F Y, Shi S Y, Ma W G, Zhang X, A switched vibrating-hot-wire method for measuring the viscosity and thermal conductivity of liquids, Review of Scientific Instruments, 90:075105, 2019.

69. Jin C Z, Teng G X, Gu Y A, Cheng H, Fu S P, Zhang C*, Ma W G*, Functionalized hollow MnFe2O4 nanospheres: Design, applications and mechanism for efficient adsorption of heavy metal ions, New Journal of Chemistry, 43:5879-5889, 2019.

70. Fan A R, Li Q Y, Ma W G, Zhang X, Laser flash Raman spectroscopy method for characterizing the specific heat of a single nanoparticle, Journal of Nanoscience and Nanotechnology, 19:7004-7013, 2019.

71. Fan A R, Hu Y D, Wang H D, Ma W G, Zhang X, Dual-wavelength flash Raman mapping method for measuring thermal diffusivity of suspended 2D nanomaterials, International Journal of Heat and Mass Transfer, 143:118460, 2019.

72. Fan A R, Hu Y D, Ma W G, Wang H D, Zhang X, Dual-wavelength laser flash Raman spectroscopy method for in-situ measurements of the thermal diffusivity: Principle and experimental verification, Journal of Thermal Science, 28:159-168, 2019.

73. Cheng S Y, Shang F, Ma W G, Jin H, Sakoda N, Zhang X, Guo L J, Density data of two (H2+CO2) mixtures and a (H2+CO2+CH4) mixture by a modified Burnett method at temperature 673 K and pressures up to 25 MPa, Journal of Chemical and Engineering Data, 64:1693-1704, 2019.

74. Cheng S Y, Shang F, Ma W G, Jin H, Sakoda N, Zhang X, Guo L J, Density measurements of the H2-CO2-CH4-CO-H2O system by the isochoric method at 722-930 K and 15.4-30.3 MPa, Journal of Chemical and Engineering Data, 64:4024-4036, 2019.

75. Song D X, Jing D W, Ma W G*, Zhang X, High thermal conductivity of nanoparticles not necessarily contributing more to nanofluids, Applied Physics Letters, 113:223104, 2018.

76. Shi X G, Li M Y, Ma W G, Zhou X G, Zhang X, Experimental study on thermal transport property of KD-II SiC fiber, Journal of Inorganic Materials, 33:756-760, 2018.

77. Qi X, Ma W G*, Zhang X, Zhang C, Raman characterization and transport properties of morphology-dependent two-dimensional Bi2Te3 nanofilms, Applied Surface Science, 457:41-48, 2018.

78. Miao T T, Li D W, Shi S Y, Ji Z L, Ma W G*, Zhang X, Zhong Q, Wang X S*, Essential role of enhanced surface electron-phonon interactions on the electrical transport of suspended polycrystalline gold nanofilms, RSC Advances, 8:20679-20685, 2018.

79. Ma W G, Shi S Y, Zhang X, Three-wire method to characterize the thermoelectric properties of one-dimensional materials, Journal of Vacuum Science & Technology B, 36:022903, 2018.

80. Ma W G, Liu Y J, Yan S, Miao T T, Shi S Y, Xu Z, Zhang X, Gao C, Chemically doped macroscopic graphene fibers with significantly enhanced thermoelectric properties, Nano Research, 11:741-750, 2018.

81. Cheng S Y, Shi X G, Ma W G, Zhang X, Liu G L, Pan M X, Wang W H, Experimental research on thermal transport properties of crystallized palladium-based alloys, Frontiers in Energy, 12:121-126, 2018.

82. Yan S, Dong C, Miao T T, Wang W, Ma W G*, Zhang X, Kohno M, Takata Y, Long delay time study of thermal transport and thermal stress in thin Pt film-glass substrate system by time-domain thermoreflectance measurements, Applied Thermal Engineering, 111:1433-1440, 2017.

83. Shi X G, Cheng S Y, Ma W G, Zhang X, Liu G L, Pan M X, Wang W H, Experimental research on thermal transport properties of palladium-based amorphous alloys, Journal of Non-Crystalline Solids, 458:157-161, 2017.

84. Dong C, Ma W G*, Zhang X, Modulation of the time-domain reflectance signal induced by thermal transport and acoustic waves in multilayered structure, International Journal of Heat and Mass Transfer, 114:915-922, 2017.

85. Miao T T, Shi S Y, Yan S, Ma W G*, Zhang X, Takahashi K, Ikuta T, Integrative characterization of the thermoelectric performance of an individual multiwalled carbon nanotube, Journal of Applied Physics, 120:124302, 2016.

86. Miao T T, Ma W G*, Yan S, Zhang X, Kohno M, Takata Y, Ikoma Y, Thermal transport and thermal stress in a molybdenum film-glass substrate system, Journal of Vacuum Science & Technology B, 34:021801, 2016.

87. Ma W G, Miao T T, Zhang X, Takahashi K, Ikuta T, Zhang B P, Ge Z H, A T-type method for characterization of the thermoelectric performance of an individual free-standing single crystal Bi2S3 nanowire, Nanoscale, 8:2704-2710, 2016.

88. Ma W G, Liu Y J, Yan S, Miao T T, Shi S Y, Yang M C, Zhang X, Gao C, Systematic characterization of transport and thermoelectric properties of a macroscopic graphene fiber, Nano Research, 9:3536-3546, 2016.

89. Li Q Y, Ma W G, Zhang X, Laser flash Raman spectroscopy method for characterizing thermal diffusivity of supported 2D nanomaterials, International Journal of Heat and Mass Transfer, 95:956-963, 2016.

90. Miao T T, Ma W G*, Zhang X, Novel ac heating-dc detection method for active thermoelectric scanning thermal microscopy, International Journal of Thermophysics, 36:2599-2608, 2015.

91. Ma W G, Miao T T, Zhang X, Kohno M, Takata Y, Comprehensive study of thermal transport and coherent acoustic-phonon wave propagation in thin metal film-substrate by applying picosecond laser pump-probe method, Journal of Physical Chemistry C, 119:5152-5159, 2015.

92. Liu J H, Wang H D, Hu Y D, Ma W G, Zhang X, Laser flash-Raman spectroscopy method for the measurement of the thermal properties of micro/nano wires, Review of Scientific Instruments, 86:014901, 2015.

93. Liu J H, Wang H D, Hu Y D, Ma W G, Zhang X, Measurement of apparent thermal conductivity and laser absorptivity of individual carbon fibers, International Journal of Thermophysics, 36:2740-2747, 2015.

94. Shao H Y, Ma W G, Kohno M, Takata Y, Xin G B, Fujikawa S, Fujino S, Bishop S, Li X G, Hydrogen storage and thermal conductivity properties of Mg-based materials with different structures, International Journal of Hydrogen Energy, 39:9893-9898, 2014.

95. Miao T T, Ma W G, Zhang X, Kubo K, Kohno M, Takata Y, Ikuta T, Takahashi K, Study on the cross plane thermal transport of polycrystalline molybdenum nanofilms by applying picosecond laser transient thermoreflectance method, Journal of Nanomaterials, 2014:578758, 2014.

96. Ma W G, Miao T T, Zhang X, Yang L P, Cai A, Yong Z Z, Li Q W, Thermal performance of vertically-aligned multi-walled carbon nanotube array grown on platinum film, Carbon, 77:266-274, 2014.

97. Jia L, Ma W G, Zhang X, Ultrafast carrier dynamics in polycrystalline bismuth telluride nanofilm, Applied Physics Letters, 104:241911, 2014.

98. Miao T T, Ma W G, Zhang X, Wei J Q, Sun J L, Significantly enhanced thermoelectric properties of ultralong double-walled carbon nanotube bundle, Applied Physics Letters, 102:053105, 2013.

99. Ma W G, Zhang X, Study of the thermal, electrical and thermoelectric properties of metallic nanofilms, International Journal of Heat and Mass Transfer, 58:639-651, 2013.

100. Ma W G, Wang H D, Zhang X, Wang W, Study of the electron-phonon relaxation in thin metal films using transient thermoreflectance technique, International Journal of Thermophysics, 34:2400-2415, 2013.

101. Liu J H, Wang H D, Ma W G, Zhang X, Song Y, Simultaneous measurement of thermal conductivity and thermal contact resistance of individual carbon fibers using Raman spectroscopy, Review of Scientific Instruments, 84:044901, 2013.

102. Miao T T, Ma W G, Zhang X, Ac heating-dc detecting method for Seebeck coefficient measurement of the thermoelectric micro/nano devices, Journal of Vacuum Science & Technology B, 30:051804, 2012.

103. Wang H D, Ma W G, Zhang X, Wang W, Guo Z Y, Theoretical and experimental study on the heat transport in metallic nanofilms heated by ultra-short pulsed laser, International Journal of Heat and Mass Transfer, 54:967-974, 2011.

104. Wang H D, Ma W G, Guo Z Y, Zhang X, Wang W, Measurements of electron-phonon coupling factor and interfacial thermal resistance of metallic nano-films using a transient thermoreflectance technique, Chinese Physics B, 20:040701, 2011.

105. Miao T T, Song M X, Ma W G, Zhang X, Theoretical calculations of thermophysical properties of single-wall carbon nanotube bundles, Chinese Physics B, 20:056501, 2011.

106. Miao T T, Ma W G, Zhang X, Li Z, A self-heating 2 omega method for Seebeck coefficient measurement of thermoelectric materials, Review of Scientific Instruments, 82:024901, 2011.

107. Ma W G, Wang H D, Zhang X, Wang W, Theoretical and experimental study of femtosecond pulse laser heating on thin metal film, Acta Physica Sinica, 60:064401, 2011.

108. Wang H D, Ma W G, Zhang X, Wang W, Measurement of the thermal wave in metal films using femtosecond laser thermoreflectance system, Acta Physica Sinica, 59:3856-3862, 2010.

109. Ma W G, Zhang X, Takahashi K, Electrical properties and reduced Debye temperature of polycrystalline thin gold films, Journal of Physics D-Applied Physics, 43:465301, 2010.

110. Ma W G, Wang H D, Zhang X, Wang W, Experiment study of the size effects on electron-phonon relaxation and electrical resistivity of polycrystalline thin gold films, Journal of Applied Physics, 108:064308, 2010.

111. Ma W G, Wang H D, Zhang X, Koji T, Different effects of grain boundary scattering on charge and heat transport in polycrystalline platinum and gold nanofilms, Chinese Physics B, 18:2035-2040, 2009.

112. Feng B, Ma W G, Li Z X, Zhang X, Simultaneous measurements of the specific heat and thermal conductivity of suspended thin samples by transient electrothermal method, Review of Scientific Instruments, 80:064901, 2009.

113. Wang J L, Gu M, Ma W G, Zhang X, Song Y, Temperature dependence of the thermal conductivity of individual pitch-derived carbon fibers, New Carbon Materials, 23:259-263, 2008.

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