导师风采 Supervisor's Information

马维刚，清华大学副教授，博士生导师，教育部青年长江学者，从事微纳尺度传热、热物性，离子热电转换等能量高效转换与存储，微纳电子器件散热设计和协同优化，高温高压超临界混合工质热物性等研究。负责国家自然科学基金面上项目、智能基础研究计划技术领域基金项目、装备预研教育部基金项目、清华大学自主科研计划项目等。发表SCI论文100余篇，做国际/国内会议特邀/主旨报告10余次。获国际传热传质中心 “Hartnett-Irvine Award” (2018)，教育部自然科学一等奖 （2018），亚洲热物性研究青年科学家奖（2019）等奖项。毕业学生去向包括：博士&博士后：郑州大学直聘研究员（正高级），华北电力大学副教授等，硕士：华为（2人），大疆，山西省工信厅，文昌发射中心等。

2012年1月—2013年12月，清华大学航天航空学院 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，清华大学航天航空学院 讲师；

2014年12月—至今，清华大学航天航空学院 副教授。

热物理量测技术（本科专业必修）

实验室科研探究课（参讲，全校任选，国家精品课）

微纳尺度能量输运、纳米热测量、电子器件热管理与热设计
微纳尺度能量转换、离子热电，全固态电池
医工交叉

国家自然科学基金面上项目，芯片实时温度和多载能子耦合的高时/空分辨测量研究，58万
智能基础研究计划技术领域基金项目，面向微尺度智能体的关键技术研究，80万
中兴公司项目，FCBGA芯片内部热阻分析与优化，73万
清华大学自主科研计划关键核心技术专项，多波长大光斑动态拉曼-微流控微生物单菌鉴定分选技术研发，60万

1. 提出交/直流混合分离原理，开发出综合T型法，研制出测试仪器，实现了对同一微纳米线材热导率等八种最重要物性参数的综合测量；发现了硫化铋纳米线中金属－绝缘体二级相变新现象；通过性能测量与制备优化闭环研究，获得热导率高达1480W/(m K)的高导热石墨烯纤维等新型高性能材料。开发出高性能离子热电材料，并实现了P-N型调控。
2. 提出“时间－空间－相位一体”原理，开发出原位无损、高时/空分辨测量纳米材料热物性的双波长拉曼闪光法，研制出测试仪器，应用于纳米材料及界面测量，发现褶皱和转角使石墨烯热导率下降70%以上，揭示了界面载能子输运对固态离子电池性能的影响机制，开发出高性能小尺寸热致-水蒸发联合高效发电器件。
3. 提出效应叠加模型，攻克了飞秒激光热反射法测量中金属传感层表面氧化的关键难题，从实验上证实了金属薄膜电子超快能量弛豫无尺度效应，而稳态导热尺度效应显著，揭示了其微观物理机制，并通过界面载能子耦合等调控纳米流体和纳米复合材料的热、电输运性能。

主旨/邀请报告：
[1] Ma W G, Characterization and application of the nanoscale thermal transport properties, 2nd Asian Conference on Thermal Sciences, October 3-7, Japan. (Keynote, online) 
[2] Ma W G, Study of the thermal transport properties at nanoscale, 6th International Workshop on Heat-Mass Transfer Advances for Energy Conservation and Pollution Control, August 13-16, 2021, Harbin, China. (Keynote)
[3] Ma W G, Characterization of the thermoelectric properties of one-dimensional nanostructure by fabricating a T-type nanosensor. The 11th Asian Thermophysical Properties Conference. October 2-6, 2016, Yokohama, Japan. (Keynote)
[4] Ma W G, Thermophysical property characterization of individual nanomaterials, 2019 Collaborative Conference on Materials Research, Goyang, South Korea, June 3-7, 2019.(Invited)
[5] Ma W G, Study of the thermal transport across the interface with high temporal resolution, Int Workshop of Young Scholars in Heat Transfer and Energy, Qingdao, China, Apr. 26-28, 2019. (Invited)
[6] Ma W G, Characterization of the thermal transport properties of individual nanomaterials, 25th Silver Jubilee Assembly of IAAM Congress, Stockholm, Sweden, Mar. 24-27, 2019. (Invited)
[7] Ma W G, Study of the thermal properties of nanoscale interface with high temporal resolution, 31st Int Microprocesses and Nanotechnology Conference, Sapporo, Japan, Nov. 13-16, 2018. (Invited)
[8] Ma W G, Study of the thermal transport across the interface, Workshop on Thermal and Charge Transport across Flexible Nano-Interfaces, Tokyo, Japan, Nov. 11-12, 2018. (Invited)
[9] Ma W G, A T-type method for characterization of the thermoelectric performance of an individual nanowire. 2016 EMN Meeting on Nanowires, Amsterdam, Netherlands, May 16-19, 2016.

发表论文（部分）：
[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] 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.
[3] 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.
[4] 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.
[5] 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.
[6] 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.
[7] 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.
[8] 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.
[9] 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.
[10] 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.
[11] 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.
[12] 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.
[13] 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.
[14] 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.
[15] 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.
[16] 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.
[17] 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.
[18] 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.
[19] 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.
[20] 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.

[1] 2020，教育部青年长江学者

[2] 2019，亚洲热物性研究青年科学家奖
[3] 2018，国际传热传质中心Hartnett-Irvine Award
[4] 2018，教育部自然科学奖一等奖（排名第3）
[5] 2016，清华大学大学生研究训练计划优秀指导教师一等奖

[1] Journal of Thermal Science (SCI, Springer)  学科编辑，2018至今
[2] 国际传热传质中心（ICHMT）科学委员会委员，2022至今
[3] 第16届国际传热大会副编辑，2018
[4] Applied Thermal Engineering专刊客座编辑，2018
[5] 第15届国际传热大会分会场主席，2014
[6] 第6届第7届国际微纳技术会议科学委员会委员，2017
[7] 第7届国际微纳技术会议科学委员会委员，2019
[8] 第2届国际热科学与工程测量技术研讨会组委会委员，2019
[9] 2019年传热与能源国际青年学者研讨会秘书长, 2019
[10] 中国工程热物理学会青年工作委员会秘书，2016至今
[11] 北京热物理与能源工程学会青年委员会委员，2018至今