Bin Liu/刘彬

 

Postdoctoral Fellow

Department of Engineering Mechanics

Tsinghua University

Beijing 100084, China

E-mail: binliuhy@mail.tsinghua.edu.cn

 

Education

Ø   Ph. D study (2018-2022)

Department of Thermophysics, Bauman Moscow State Technical University, Moscow, Russia

Supervisor: Prof. Vladimir I. Khvesyuk

Thesis: Theoretical investigation of interfacial thermal conductance and coherent heat conduction in multilayer nanostructures

Ø   M.S. (2015-2018)

Department of Thermophysics, Bauman Moscow State Technical University, Moscow, Russia

Supervisor: Prof. Vladimir I. Khvesyuk

Thesis: Impact of phonon scattering processes on the thermal conductivity of thin films

Ø   B.S. (2011-2015)

Department of Energy and Power Engineering, Beijing Institute of Technology, Beijing, China

Thesis: Experimental and numerical study on the heat transfer and flow characteristics of fin-tube exchanger under low pressure environment

 

Experiences

Ø   Visiting student, Tsinghua University, 2020-2021 (Supervisor: Prof. Moran Wang)

 

Research Interests

Ø   Heat transfer at micro/nanoscale

Ø   Photon-Phonon-Electron Transport

Ø   Interfacial thermal resistance

Ø   Non-Fourier heat conduction in thin films

 

Honors and Awards

Ø   2018-2022 CSC postgraduate scholarship program

Ø   2018.07     Master's degree with distinction

Ø   2015-2018 CSC postgraduate scholarship program

 

Publications

In Journal

1.        B. Liu, Z. Tian, A.A. Barinov and M. Wang*. Wavelike thermal phonons revealed by localization in graphene phononic crystal. APL

2.        S. Zhang, B. Liu, B. Li et al. Structural Engineering Enhances Synergistic Photon-Phonon-Electron Transport in Ag2Se-Based Flexible Photothermoelectric Detectors. NS

3.        Z. Yao, B. Liu, S. Zhang et al. Exceptional thermoelectric multilayers by graded interfacial design. NC

4.        B. Liu, Z. Tian, A.A. Barinov and M. Wang*. Interfacial and coherent thermal transport of phonons in Bi2Te3/Sb2Te3 superlattices. International Journal of Heat and Mass Transfer In Press, 2026

5.        B. Liu, Z. Tian, A.A. Barinov and M. Wang*. Enhanced heat conduction in diamond/copper composites via interconnected structures: Machine learning molecular dynamics simulation. International Journal of Thermal Sciences 221: 110501, 2026

6.        Z. Tian, B. Liu and M. Wang*. Viscous Effect on Neutral Radical Spatial Distribution in Microwave Plasma Chemical Vapor Deposition Journal of Physics D: Applied Physics 58: 165204, 2025

7.        Z. Tian, B. Liu and M. Wang*. Radiative Heat Transfer in Microwave Plasma Chemical Vapor Deposition International Journal of Heat and Mass Transfer 239, 126521, 2025

8.        刘彬,黄云帆,王沫然. 纳尺度热传导中载流子波动行为的物理及建模. 计算物理, 2025

9.        B. Liu and M. Wang*. Interfacial thermal transport driven by phonon wave behaviors and the case of GaN-on-diamond devices International Journal of Heat and Mass Transfer 229: 125700, 2024

10.     B. Liu, Y. Guo, V.I. Khvesyuk, A.A. Barinov, and M. Wang*. Heat conduction of multilayer nanostructures with consideration of coherent and incoherent phonon transport. Nano Research 15: 9492, 2022

11.    B. Liu, V.I. Khvesyuk, A.A. Barinov, and M. Wang*. Effect of interfacial roughness on thermal boundary conductance: An elastic wave model using the Kirchhoff approximation. International Journal of Mechanical Sciences 218: 106993, 2022

12.    B. Liu, V.I. Khvesyuk*, A.A. Barinov. Modeling of the Kapitza conductance through rough interfaces between solids. Physics of the Solid State 63: 1042-1047, 2021

13.    B. Liu and V.I. Khvesyuk*. Analytical model for thermal boundary conductance based on elastic wave theory. International Journal of Heat and Mass Transfer 159: 120117, 2020

14.    V.I. Khvesyuk, B. Liu*, A.A. Barinov. A new approach to calculation of the Kapitza conductance between solids. Technical Physics Letters 46: 983-987, 2020

15.    X. Liu*, L. Hou, J. Wang, B. Liu, Z. Yu, L. Ma, S. Yang, G. Fu. Plasmonic-enhanced polymer solar cells with high efficiency by addition of silver nanoparticles of different sizes in different layersSolar Energy 110: 627, 2014

 

In Conference

1. B. Liu, V.I. Khvesyuk, A.A. Barinov. Elastic wave model of Kapitza conductance across rough interfaces. 6th All-Russian Conference on Thermophysics & Physical Hydrodynamics, August 22-29, 2021, Sevastopol, Republic of Crimea. (in Russian)

2. V.I. Khvesyuk, B. Liu, A.A. Barinov. Phonon thermal transport across metal-nonmetal interfaces. Thermophysics and Power Engineering in Academic Centers (TPEAC-2019), October 21-23, 2019, Saint-Petersburg, Russia. (in Russian)

3. V.I. Khvesyuk, B. Liu, A.A. Barinov. Kapitza resistance modeling based on interfacial elastic wave propagation analysis. 35th Siberian Heat Transfer Seminar, August 27-29, 2019, Novosibirsk, Russia. (in Russian)