Yunfan Huang/黄云帆

 

PhD

Department of Engineering Mechanics

Tsinghua University

Beijing 100084, China

E-mail: yf-huang19@mails.tsinghua.edu.cn

 

 

 

 

 

Education

Ø     Ph. D study (2019-2025)

Department of Engineering Mechanics, Tsinghua University

Supervisor: Prof. Moran Wang

Ø     B.S. (2015-2019)

Department of Engineering Mechanics (Tsien Excellence in Engineering Program), Tsinghua University

Thesis: Electron Hydrodynamics in micro/nanoscale low-dimensional materials

 

Experiences

Ø     Teaching Assistant, Heat and Mass Transfer (Prof. M. Wang), Tsinghua University, 2021-2023

Ø     Visiting Student, School of Mechanical Engineering, Purdue University, (Prof. S.T. Wereley), Fall 2019

Ø     Participant, Airbus Airnovation Summer Academy, Cranfield University, July 2018 

 

Research Interests

l  Electrokinetic flows and micro-/nano-fluidics

l  Physicochemical hydrodynamics in multiphase system

l  Hydrodynamic effect in electron and phonon transport

l  Multiphysics and multiscale modeling and simulation

 

Honors and Awards

·         2025      Outstanding Graduate of Tsinghua University

·         2020-2025 Tsinghua Comprehensive Excellence Scholarship

·         2023.12  Excellent Teaching Assistant (Eng. Mech. Dept.)

·         2021.12  Tsinghua Comprehensive Excellence Scholarship (1st Prize)

·         2021.12  Tsinghua Excellent Mentor for Undergraduate

·         2019.07  Bachelor’s thesis with honor

·         2016.10  National Scholarship 

 

Publications

In Journal

1.      Y.F. Huang, Z. Tian, H. Chen, W. Liu and M. Wang*. Electrokinetic transport in saturated and unsaturated porous media: A pore-scale view. Advances in Colloid and Interface Science In Press, 2026

2.      Y.F. Huang and M. Wang *. Electrophoresis of charged dielectric droplet with ion concentration polarization effect. PRF

3.      Y.F. Huang and M. Wang *. Electrokinetic transport regulation at liquid-infused surface by liquid depletion and ion partition. PRF

4.      Y.F. Huang and M. Wang *. Electrokinetic multiphase hydrodynamics. Applied Physics Reviews 12: 031322, 2025

5.      W. Liu, Y.F. Huang and M. Wang*. Flow Instability and Scaling Transition near Strongly Polarized Surfaces. Journal of Fluid Mechanics, 1024: A8, 2025, 2025

6.      X.K. Lu, Q. Li, G. Yang, Y.F. Huang, W.H. Lei and M. Wang*. Geometry-mediated particle accumulation driven by nonhydrodynamic viscosity effect with flow control implications in porous media. Physical Review Fluids 10: 093304, 2025

7.      Y.F. Huang and M. Wang *. Electrokinetics at liquid-liquid interfaces: physical models and transport mechanisms. Advances in Colloid and Interface Science 342: 103518, 2025

8.      W. Liu, Y.F. Huang and M. Wang*. Extended space charge and transport near ion-selective surfaces. International Journal of Mechanical Sciences 287: 109933, 2025

9.      M.B. Zhang, Z.G. Tian, Y.F. Huang, M. Wang*. Gas flow regimes and transition criteria in porous media. Physical Review Fluids 10: 024303, 2025

10.  Y.F. Huang and M. Wang*. Solvent mixing and ion partitioning effects in spontaneous charging and electrokinetic flow of liquid-liquid interface. Physical Review Fluids 9: 103701, 2024 (Editor’s suggestion highlighted)

11.  Z.G. Tian, Y.F. Huang, M. Wang*. Analytical solution of inertia effect in high-speed flows through disordered media. Physical Review Fluids –Letter 9: L102101, 2024

12.  Q.Q. Li, G. Yang, Y.F. Huang, X.K. Lu, J. Min and M. Wang*. Lattice Boltzmann method for particulate multiphase flow system. International Journal of Mechanical Sciences 273: 109217, 2024

13.  Y.R. Li, Y.F. Huang, X.K. Lu, M. Wang*. Criterions of distribution transitions in Dispersed Multiphase Systems Based on an Extended Lattice Model. Langmuir39, 17021, 2023

14.  A. Alizadeh#Y.F. Huang#, F.L. Liu, H. Daiguji, M. Wang*. A streaming-potential-based microfluidic measurement of surface charge at immiscible liquid-liquid interface. International Journal of Mechanical Sciences247, 108200, 2023

15.  X. Ran#Y.F. Huang#, M. Wang*. A Hybrid Monte Carlo-Discrete Ordinates Method for Phonon Transport in Micro/nanosystems with Rough Interfaces. International Journal of Heat and Mass Transfer201, 123634, 2023

16.  Y.F. Huang and M. Wang*. Nonnegative magnetoresistance in hydrodynamic regime of electron fluid transport in two-dimensional materials. Physical Review B104, 155408, 2021

17.  B. Liu, Y. Huang, M. Wang. Physics and modeling of phonon wave behaviors in nanoscale heat conduction. Chinese Journal of Computational Physics. 41(6): 746-771, 2024

18.  Y.F. Huang, M. Wang*. Electrokinetic multiphase hydrodynamics: Mechanisms and Applications. Chinese Journal of Theoretical and Applied Mechanics (in Chinese) 57(11): 2678-2708, 2025

19.  Y.F. Huang, M. Wang*. Merging of mechanics and mathematical physics: a brief discussion on similarity method. Mechanics in Engineering (in Chinese), 46(4): 868-875, 2024

20.  Y.F. Huang. On the relationship between the two loci of instant center of rigid body in plane motion. Mechanics in Engineering (in Chinese), 3: 306-311, 2017.

21.  M. Wang, Y.F. Huang. A measurement method for interfacial charge density at immiscible fluids interface. Chinese Patten. 2024109860331

 

In Conference

1.      Y.F. Huang, W. Liu, M. Wang*. Electrokinetic multiphase flow at spontaneously charged liquid-liquid interface: a diffuse interface model with adsorption-induced interface charge (Oral presentation). ICTAM 2024. Daegu, Korea. 2024.08 (accepted)

2.      Y.F. Huang, A. Alizadeh, F.L. Liu, M. Wang*. Measurement of surface charge at immiscible liquid-liquid interface using streaming-potential-on-microfluidics (Oral presentation). InterPore 2023. Edinburgh, UK. 2023.05

3.      Y.F. Huang, M. Wang*. Measurement of liquid-liquid interfacial charge based on streaming potential. NCFluid 2022. Xi'an, China. 2022.11 (in Chinese)

4.       Y.F. Huang, M. Wang*. Hydrodynamics of low dimensional electron transport at micro-nanoscales. CCTAM 2019. Hangzhou, China. 2019.08 (in Chinese)