清华大学航天航空学院副院长,教授,国家杰青。2010年入选
清华大学221青年人才计划,2011年入选教育部新世纪优 秀人才支持计划,2013年获国家自然科学优 秀青年基金,2018年获国家自然科学杰 出青年基金。曾获清华大学青年教师教学优 秀奖(2014)、
中国工程热物理学会吴仲华优 秀青年学者奖(2014)、教育部自然科学
一等奖(2018)等荣誉。
教育背景
1994-2001年在
山东大学能源与动力工程学院获得学士和硕士学位。
2001-2005年在
清华大学航天航空学院获得博士学位。
工作履历
2008.12-2013.11,清华大学副教授。
2013.12起,清华大学航天航空学院(破格)教授。
2016.06起,清华大学航天航空学院副院长。
学术兼职
中国工程热物理学会传热传质专业委员会委员
《ES Energy \u0026 Environment》主编
《Scientific Reports》《PLOS One》和《Advances in Materials Research》等5个国际期刊编委
国家/北京市
中华人民共和国国家自然科学基金委员会、教育部/科技部/工信部/中组部/装发部科研基金和科技奖励、
中华人民共和国国家发展和改革委员会、
国家能源局等部门专家。
主讲课程
本科生必修课《新概念热学》和《工程热力学》、研究生
学位课《传热理论新进展》和《现代力学与热科学进展》主讲教师。
研究方向
微纳尺度流动与传热、热功能材料、先进热管理技术、传热优化理论与节能技术、传热传质过程的分子模拟等。
主要研究领域为微纳尺度传热、热功能材料和先进热管理技术,主持国家自然科学基金、国家重点研发计划、国家重大科技专项、教育部、装备部、科工局及军科委等二十多项课题,发表SCI论文120余篇。
奖励与荣誉
2018,国家自然科学基金杰出青年基金
2013,国家自然科学基金优秀青年基金
2011,教育部新世纪优 秀人才支持计划
2010,入选清华大学221青年人才支持计划
2008,教育部自然科学奖一等奖
学术成果
发表SCI论文120余篇,代表论文:
B.Y. Cao*, J.H. Zou, G.J. Hu, G.X. Cao. Enhanced thermal transport
across multilayer graphene and
H₂O by interlayer functionalization. Applied Physics Letters, 2018, 112: 041603
H. Bao, J. Chen, X.K. Gu, B.Y. Cao*. A review of simulation methods in micro/nanoscale heat conduction. ES
能量 \u0026 Environment, 2018, 1: 16-55
Y.C. Hua, B.Y. Cao*. Interface-based two-way tuning of the in-plane thermal transport in nanofilms. Journal of Applied Physics, 2018, 123: 114304
H.L. Li, Y.C. Hua, B.Y. Cao*. A hybrid phonon Monte Carlo-diffusion method for ballistic-diffusive heat conduction in nano- and micro- structures. International Journal of Heat and
质量 Transfer, 2018, 127: 1014-1022
B.D. Nie, B.Y. Cao*. Reflection and refraction of a thermal wave at an ideal interface. International Journal of Heat and Mass Transfer, 2018, 116: 314-328
X.M. Yang*, J.X. Xu, S.H. Wu, M. Yu, B. Hu, B.Y. Cao*, J.H. Li. A molecular
动力学 simulation study of PVT properties for H2O/H2/CO2 mixtures in near-critical and supercritical regions of
H₂O International Journal of
氢 能量, 2018, 43(24): 10980-10990
C. Si, L. Li, G. Lu, B.Y. Cao*, et al. A comprehensive analysis about thermal conductivity of multi-layer graphene with N-doping, -CH3 group and single vacancy. Journal of Applied Physics, 2018, 123: 135101
Z.Q. Ye, B.Y. Cao*. Thermal rectification at the bimaterial nanocontact
接口 Nanoscale, 2017, 9: 11480-11487
J.H. Zou, B.Y. Cao*. Phonon thermal properties of graphene on h-BN from molecular
动力学 simulations. Applied Physics Letters, 2017, 110: 103106
Y.C. Hua, B.Y. Cao*. Slip boundary conditions in ballistic-diffusive heat transport in nanostructures. Nanoscale and Microscale Thermophysical Engineering, 2017, 21(3): 159-176
Y.C. Hua, B.Y. Cao*. An efficient two-step Monte Carlo method for phonon heat conduction in nanostructures. Journal of Computational Physics, 2017, 342: 253–266
Y.C. Hua, B.Y. Cao*. Anisotropic heat conduction in two-dimensional periodic
硅 nanoporous films. The Journal of Physical Chemistry C, 2017, 121(9): 5293–5301
Y.C. Hua, B.Y. Cao*. Cross-plane heat conduction in nanoporous silicon thin films by phonon Boltzmann transport equation and Monte Carlo simulations. Applied Thermal Engineering, 2017, 111: 1401-1408
D.S. Tang, B.Y. Cao*. Superballistic characteristics of transient phonon ballistic-diffusive conduction. Applied Physics Letters, 2017, 111: 113109
D.S. Tang, B.Y. Cao*. Ballistic thermal wave propagation along nanowires modeled using phonon Monte Carlo simulations. Applied Thermal Engineering, 2017, 117: 609–616
S.N. Li, B.Y. Cao*. Mathematical and information-geometrical entropy for phenomenological Fourier and non-Fourier heat conduction. Physical Review E, 2017, 96(3): 032131
X.M. Yang*, D.P. Yu, B.Y. Cao*. Giant thermal rectification from single-
碳 nanotube–graphene junction. ACS Applied Materials \u0026 Interfaces, 2017, 9(28): 24078–24084
X.M. Yang*, Y.H. Huang, B.Y. Cao*, A.C. To. Ultrahigh thermal rectification in pillared graphene structure with
碳 nanotube-graphene intramolecular junctions. ACS Applied Materials \u0026 Interfaces, 2017, 9: 29?35
J.F. Xie, B.Y. Cao*. Fast nanofluidics by travelling
surface waves. Microfluidics and Nanofluidics, 2017, 21: 111
C. Si, G. Lu, B.Y. Cao*, et al. Effects of torsion on the thermal conductivity of multi-layer graphene. Journal of Applied Physics, 2017, 121: 205102
B.Y. Cao*, W.J. Yao, Z.Q. Ye. Networked nanoconstrictions: An effective route to tuning the thermal transport properties of graphene.
碳, 2016, 96: 711-719
B.Y. Cao*, M. Yang, G.J. Hu. Capillary filling
动力学 of polymer melts in nanopores: Experiments and rheological modelling. RSC Advances, 2016, 6: 7553-7559
J.H. Zou, Z.Q. Ye, B.Y. Cao*. Phonon thermal properties of graphene from molecular dynamics using different potentials. The Journal of Chemical Physics, 2016, 145: 134705
Z.Q. Ye, B.Y. Cao*. Nanoscale thermal cloaking in graphene by chemical functionalization. Physical Chemistry Chemical Physics, 2016, 18: 32952 - 32961
Y.C. Hua, B.Y. Cao*. The effective thermal conductivity of ballistic–diffusive heat conduction in nanostructures with internal heat source. International Journal of Heat and
质量 Transfer, 2016, 92: 995-1003
Y.C. Hua, B.Y. Cao*. Ballistic-diffusive heat conduction in multiply-constrained nanostructures. International Journal of Thermal Sciences, 2016, 101: 126-132
S.N. Li, B.Y. Cao*. Generalized variational principles for heat conduction models based on Laplace transform. International Journal of Heat and
质量 Transfer, 2016, 103: 1176–1180
D.S. Tang, Y.C. Hua, B.Y. Cao*. Thermal wave propagation through nanofilms in ballistic-diffusive regime by Monte Carlo simulations. International Journal of Thermal Sciences, 2016, 109: 81-89
D.S. Tang, Y.C. Hua, B.D. Nie, B.Y. Cao*. Phonon wave propagation in ballistic-diffusive regime. Journal of Applied Physics, 2016, 119: 124301
Z.Q. Ye, B.Y. Cao*, W.J. Yao,
Team Liquid Feng, X.L. Ruan*. Spectral phonon thermal properties in graphene nanoribbons.
碳, 2015, 93: 915-523
R.Y. Dong, B.Y. Cao*. Superhigh-speed unidirectional rotation and its decoupled
动力学 of a carbon nanotube in a sheared fluid. RSC Advances, 2015, 5: 88719 - 88724
Team Liquid Feng, X.L. Ruan, Z.Q. Ye, B.Y. Cao*. Spectral phonon mean free path and thermal conductivity accumulation in defected graphene: The effects of defect type and concentration. Physical Review B, 2015, 91(22): 224301
R.Y. Dong, Y. Zhou, C. Yang, B.Y. Cao*. Translational thermophoresis and rotational movement of peanut-like colloids under
温度 gradient. Microfluidics and Nanofluidics, 2015, 19(4): 805-811
B.Y. Cao*, R.Y. Dong. Molecular
动力学 calculation of rotational diffusion coefficient of a
碳 nanotube in fluid. The Journal of Chemical Physics, 2014, 140: 034703
R.Y. Dong, B.Y. Cao*. Anomalous orientations of a rigid carbon nanotube in a sheared fluid. Scientific Reports, 2014, 4: 6120
Z.Q. Ye, B.Y. Cao*, Z.Y. Guo. High and anisotropic thermal conductivity of body-centered tetragonal C4 calculated using molecular
动力学 碳, 2014, 66: 567-575
Y.C. Hua, B.Y. Cao*. Phonon ballistic-diffusive heat conduction in
硅 nanofilms by Monte Carlo simulations. International Journal of Heat and Mass Transfer, 2014, 78: 755-759
M.K. Zhang, B.Y. Cao*, et al. Numerical studies on damping of thermal waves. International Journal of Thermal Sciences, 2014, 84: 9-20
B.Y. Cao*, J. Kong, et al. Polymer nanowire arrays with high thermal conductivity and superhydrophobicity fabricated by a nano-moulding technique. Heat Transfer Engineering, 2013, 34(2-3): 131-139
G.J. Hu, B.Y. Cao*. Thermal resistance between crossed
碳 nanotubes: Molecular
动力学 simulations and analytical modeling. Journal of Applied Physics, 2013, 114: 224308
B.Y. Cao*, R.Y. Dong. Nonequilibrium molecular dynamics simulation of shear viscosity by a uniform momentum source-and-sink
Scheme Journal of Computational Physics, 2012, 231(16): 5306-5316
B.Y. Cao, J.F. Xie, S.S. Sazhin*. Molecular
动力学 study on evaporation and condensation of n-
十二烷 at
羧基液体丁腈橡胶vapour phase equilibria. The Journal of Chemical Physics, 2011, 134(16): 164309
B.Y. Cao*, Y.W. Li, J. Kong, et al. High thermal conductivity of
聚乙烯 nanowire arrays fabricated by an improved nanoporous template wetting technique.
均聚物, 2011, 52(8): 1711-1715
B.Y. Cao*, Y.W. Li. A uniform source-and-sink scheme for calculating thermal conductivity by nonequilibrium molecular
动力学 The Journal of Chemical Physics, 2010, 133(2): 024106
B.Y. Cao*, J. Sun, M. Chen, Z.Y. Guo. Molecular momentum transport at fluid-
固体 interfaces in MEMS/NEMS: A review. International Journal of Molecular Sciences, 2009, 10(11): 4638-4706
Q.W. Hou, B.Y. Cao*, Z.Y. Guo. Thermal gradient induced actuation in double-walled
碳 nanotubes. Nanotechnology, 2009, 20(49): 495503
B.Y. Cao*. Nonequilibrium molecular
动力学 calculation of the thermal conductivity based on an improved relaxation
Scheme The Journal of Chemical Physics, 2008, 129(17): 074106
B.Y. Cao, Z.Y. Guo*. Equation of motion of phonon gas and non-Fourier heat conduction. Journal of Applied Physics, 2007, 102(5): 053503
B.Y. Cao*, M. Chen, Z.Y. Guo.
羧基液体丁腈橡胶 flow in
surfacenanostructured channels studied by molecular
动力学 simulation. Physical Review E, 2006, 74(6): 066311
B.Y. Cao, M. Chen*, Z.Y. Guo.
温度 dependence of the tangential momentum accommodation coefficient for gases. Applied Physics Letters, 2005, 86(9): 091905.