个人简介:马彬健,男,27岁,已获上海交通大学机械工程理学学士学位、德州农工大学机械工程哲学博士学位;2017-2019年进入美国圣路易斯华盛顿大学机械工程与材料科学方向进行博士后研究,目前任职哈尔滨工业大学(深圳)助理教授。本人传热学、工程热力学及流体力学等专业基础扎实,知识面宽,掌握了多门工程应用和科学实验技能(如微细加工技术,热物性质和材料表征,热流仿真模拟等)。现已发表专业文章12篇(7篇发表在SCI期刊上,5篇为学术会议发表论文),参加科研课题4项(1项为美国国家科学基金会纵向项目,3项为谷歌、思科和通用电气知名企业的横向课题),参加已出版著作的撰写1部,在美国参加国际学术会议11次(担任分会主席1次,做学术演讲10多次),已在美国申请专利1项,科研成果转化1项。此外,在教学方面,本人在美国德州农工大学与圣路易斯华盛顿大学担任了3次教学助理,并为美国本科生授课多次,还参加了美国暑期高中生科学实验拓展课程的教学(属美国国家科学基金会项目)。
教育背景:
09/2009-08/2013 |
机械工程专业 |
理学学士 |
上海交通大学 |
09/2013-08/2017 |
机械工程专业 |
哲学博士(直播) |
美国德州农工大学 |
导师:Debjyoti Banerjee, Professor, |
09/2017-08/2019 |
机械工程与材料科学 |
博士后 |
美国圣路易斯华盛顿大学 |
导师:Damena Agonafer, Assistant Professor |
研究方向: 传热传质,纳米流体,热能储存,多相流传热,热管理控制,微流体散热(在微电子和功率电子器件中的应用)。
主要科研经历:
哈尔滨工业大学(深圳),机电工程与自动化学院,助理教授 03/2020 – 至今
美国圣路易斯华盛顿大学博士后 |
09/2017 – 08/2019 |
工作内容: § 基于微观孔隙结构的微流体蒸发散热平台的设计和微细加工 § 微观结构上的微液珠蒸发的传热传质性质以及接触线行为的实验和多相流模拟研究 § 参与10多项美国国家科研和教学课题的立项撰写及申报, 已成功立项3项
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横向科研基金项目: |
基金来源 |
1. Development of an Evaporative Microheat Exchanger Using an Array of Porous Micropillar Structures 基于多孔微柱阵列结构的蒸发式微换热器的开发 |
Google, Inc ($86,419)
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2. Thermal and Electrical Co-Optimization for Power Management of High-Powered Semiconductor Devices 高功率半导体器件功率管理中的热-电共同优化 |
Cisco System ($100,000) |
纵向教学基金项目: |
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3. Nanoscale Energy and Interfacial Transport Research Based Mentoring Program to increase Underrepresented Minority Students in STEM 提升少数族裔在科学、技术、工程和数学专业中的参与度:以纳米能源和界面传递的科学指导计划为例 |
National Science Foundation ($198,999) |
美国德州农工大学博士 |
09/2013 – 08/2017 |
工作内容: § 高温熔盐纳米流体的一步法制备、性能表征及热物性能的机理研究 § 高温熔盐纳米流体作为聚塔式太阳能发电站中的传热介质、储能介质的性能研究
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横向科研基金项目: |
基金来源 |
1. Molten Salt Nanofluids: Investigation of Thermophysical Properties for Enhanced Thermal Energy Storage (TES) and Heat Transfer Fluids (HTF) 熔盐纳米材料(纳米流体):作为增强的热储存(TES)和传热流体(HTF)的热物理性质研究 |
General Electric ($500,000) |
学术成果–已发表的期刊论文
1) Ma, B., Shan, L., Dogruoz, M.B. and Agonafer, D. (2019) Evolution of Microdroplet Morphology Confined on Asymmetric Micropillar Structures. Langmuir, 35(37), pp. 12264-12275. (IF = 3.68, JCR Q2)
2) Ma, B. and Banerjee, D. (2019) Numerical modeling of nanofluid thermal conductivity: the effect of nano-network on thermal transport behavior. Journal of Heat Transfer, 141(12), p. 122401. (IF = 1.48, JCR Q3)
3) Ma, B. and Banerjee, D. (2017) Experimental measurements of thermal conductivity of alumina nanofluid synthesized in salt melt. AIP Advances, 7(11), p.115124. (IF = 1.58, JCR Q3)
4) Shan, L., Ma, B., Li, J., Dogruoz, B. and Agonafer, D. (2019) Investigation of the evaporation heat transfer mechanism of a non-axisymmetric droplet confined on a heated micropillar structure. International Journal of Heat and Mass Transfer, 141, pp.191-203. (IF = 4.35, JCR Q1)
5) Shan, L., Shuai, S., Ma, B., Du, Z., Dogruoz, B. and Agonafer, D. (2019) Numerical investigation of shape effect on microdroplet evaporation. Journal of Electronic Packaging. (IF = 1.99, JCR Q2)
6) Shan, L., Li, J., Ma, B., Jiang, X., Dogruoz, B. and Agonafer, D. (2019) Experimental investigation of evaporation from asymmetric microdroplets confined on heated micropillar structures. Experimental Thermal and Fluid Science, 109, p.109889. (IF = 3.49, JCR Q1)
7) Li, J., Shan, L., Ma, B., Jiang, X., Solomon, A., Iyengar, M., Padilla, J. and Agonafer, D. (2019) Investigation of the confinement effect on the evaporation behavior of a droplet pinned on a micropillar structure. Journal of colloid and interface science, 555, pp.583-594. (IF = 6.36, JCR Q1)
8) Agonafer, D.D., Lee, H., Vasquez, P.A., Won, Y., Jung, K.W., Lingamneni, S., Ma, B., Shan, L., Shuai, S., Du, Z. and Maitra, T. (2018) Porous micropillar structures for retaining low surface tension liquids. Journal of colloid and interface science, 514, pp.316-327. (IF = 6.36, JCR Q1)
学术成果–已发表的会议论文
1) Ma, B., Shan, L., Li, J., Dogruoz, B. and Agonafer, D., 2019, May. Molecular Dynamic Simulation of the Effect of Nanocoating on Two-Phase Evaporative Heat and Mass Transfer. In 2019 18th IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm) (pp. 226-231). IEEE.
2) Shuai, S., Du, Z., Ma, B., Shan, L., Dogruoz, B. and Agonafer, D., 2018, November. Numerical investigation of shape effect on microdroplet evaporation. In ASME 2018 International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems (InterPack). ASME Digital Collection.
3) Ma, B., Kumar, N., Kuchibhotla, A. and Banerjee, D., 2018, May. Experimental Measurement of the Effect of Particle Concentration on the Specific Heat Capacity of Silica Nanofluids. In 2018 17th IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm) (pp. 246-251). IEEE.
4) Ma, B., Kumar, N., Kuchibhotla, A. and Banerjee, D., 2018, May. Estimation of Measurement Uncertainties for Thermal Conductivity of Nanofluids using Transient Plane Source (TPS) Technique. In 2018 17th IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm) (pp. 178-186). IEEE.
5) Ma, B. and Banerjee, D., 2017, October. Predicting Particle Size Distribution in Nanofluid Synthesis. In ASME 2017 Heat Transfer Summer Conference. ASME Digital Collection.
学术成果–已出版的学术著作
Ma, B. and Banerjee, D., 2018. A review of nanofluid synthesis. In Advances in Nanomaterials (pp. 135-176). Springer, Cham.
学术成果–专利(已递交申请)
Agonafer, D., Ma, B., and Shan, L, “Method and Systems for Evaporation of Liquid from Droplet Confined on Hollow Pillar”, US Patent Application Serial No. PCT/US2019/047982, filed 08/23/2019
学术会议演讲:
1) Li, J., Wu, H., Ma, B., Shan, L., Padilla, J., and Agonafer, D., “Geometric optimization of a microdroplet for enhanced evaporative heat transfer”, ASME Summer Heat Transfer Conference, Bellevue, WA, July 2019
2) Ma, B., Zhou, R., Shan, L., Dogruoz, B., and Agonafer, D., “Molecular Dynamic Simulation of Evaporative Heat Transfer on Graphene Coated Silicon Substrate for Electronics Cooling”, IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm), Las Vegas, NV, May 2019
3) Shan, L., Ma, B., Dogruoz, B., and Agonafer, D., “Experimental and Numerical Investigation of Microdroplets Evaporating on Porous Micropillar Structures”, SEMI-Therm 35th Annual Symposium, San Jose, CA, March 2019
4) Ma, B., Shan, Li., Dogruoz, B., and Agonafer, D., “Molecular dynamics Simulation of Thin-Film Evaporation from Nanocoated Surfaces: An Investigation of the Role of Surface Wettability Interfacial thermal resistance on the Evaporate Rate”, International Mechanical Engineering Congress and Exposition (IMECE), Pittsburgh, PA, November 2018
5) Shan, L., Ma, B., Dogruoz, B., and Agonafer, D., “Fundamental Mechanisms of Evaporation Kinetics of Non-Spherical Microdroplets Confined by Asymmetric Micropillar Structures”, International Mechanical Engineering Congress and Exposition (IMECE), Pittsburgh, PA, November 2018
6) Shan, L., Ma, B., Shuai, S., Dogruoz, B., and Agonafer, D., “Experimental Investigation of Microdroplet Evaporation on a Porous Micropillar Structure”, International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems (InterPACK), San Francisco, CA, August 2018.
7) Shuai, S., Shan, L., Ma, B., Du, Z., Dogruoz, B., and Agonafer, D., “Numerical Investigation of Shape Effect on Microdroplet Evaporation”, International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems (InterPACK), San Francisco, CA, August 2018.
8) Ma, B., Kumar, N., Kuchibhotla, A. and Banerjee, D., “Estimation of Measurement Uncertainties for Thermal Conductivity of Nanofluids using Transient Plane Source (TPS) Technique”, IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm), San Diego, CA, May 2018
9) Ma, B., Kumar, N., Kuchibhotla, A. and Banerjee, D., “Experimental Measurement of the Effect of Particle Concentration on the Specific Heat Capacity of Silica Nanofluids”, IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm), San Diego, CA, May 2018
10) Ma, B., and Banerjee, D., “Study of nucleation and growth during in-situ synthesis of nanoparticles in a liquid environment”, ASME Summer Heat Transfer Conference, Bellevue, WA, July 2017
11) Ma, B., and Banerjee, D., “A Novel Percolation Model for the Numerical Prediction of Heat Conduction in a Nanofluid with Porous Nanostructure”, ASME Summer Heat Transfer Conference, Bellevue, WA, July 2017
12) Ma, B., and Banerjee, D., “Exploring the “Nano-Fin Effect” in pool boiling enhancement on “large” horizontal heaters using temperature nano-sensor arrays”, Micro & Nanoscale Phase Change Heat Transfer, Gordon Research Conference, Galveston, TX, Jan 2017.
13) Ma, B., and Banerjee, D., “Study of molten salt nanomaterials for Thermal Energy Storage (TES) and Heat Transfer Fluid (HTF) applications”, ASME Summer Heat Transfer Conference, Washington DC, July 2016.
14) Tamakuwala, H.D., Ma, B., and Banerjee, D., “Experimental Investigation of Corrosivity of Molten Salt Nanomaterials for Applications in Concentrated Solar Power as Thermal Energy Storage (TES) and Het Transfer Fluids (HTF)”, ASME Summer Heat Transfer Conference, Washington DC, July 2016
15) Roy, R, Ma, B., and Banerjee, D., “Experimental study of nano-Fin Effect (nFE) in Nucleate Boiling using AAO Nanofins”, ASME Summer Heat Transfer Conference, Washington DC, July 2016
16) Ma, B., and Banerjee, D., “Study of molten salt nanomaterials for Thermal Energy Storage (TES) and Heat Transfer Fluid (HTF) applications”, ASME International Mechanical Engineering Congress & Exposition (IMECE), Houston, TX, Nov 2015.
17) Ma, B., and Banerjee, D., “Design of Molten Salt Heat Transfer Loop Facility”, ASME International Mechanical Engineering Congress & Exposition (IMECE), Houston, TX, Nov 2015.
18) Ma, B., and Banerjee, D., "Exploration of Molten Salt Nanomaterials for Enhanced Thermal Energy Storage (TES) and Heat Transfer Fluid (HTF) Applications", Society of Engineering Science (SES) 52nd Annual Technical Meeting, Texas A&M University, College Station, TX, October 2015.
主要教学经历:
暑期高中生科学实验拓展课程(美国国家科学基金会项目) NSF Project “Nanoscale Energy and Interfacial Transport Research Based Mentoring Program to increase Underrepresented Minority Students in STEM” |
美国圣路易斯华盛顿大学 |
05/2018 – 06/2018, 05/2019 – 06/2019 |
工作内容:准备课程内容,讲解和演示课程实验 |
教学助理 –电子系统热管理简介 “Introduction to Thermal Management of Electronics Systems” |
美国圣路易斯华盛顿大学 |
01/2019 – 05/2019 |
工作内容:准备教学课件,代理讲解课程 |
教学助理 –机械系统的建模与分析 “Modeling and Analysis of Mechanical Systems” |
美国德州农工大学 |
09/2015 – 12/2015 |
工作内容: 准备教学课件,并与教授预演课程教学 |
教学助理 – 高级工程热力学 “Advanced Engineering Thermodynamics” |
美国德州农工大学 |
09/2014 – 12/2014 |
工作内容:批阅作业和试卷,讲解习题课 |
国际专业学会会员:
美国机械工程师学会 (ASME); 电气和电子工程师协会 (IEEE)
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