在力学及传热传质领域顶级期刊JFM、JMPS、IJHMT、PRL等发表学术论文两百余篇，其中SCI收录论文百余篇，论文SCI引用超过 9000 次，H因子 47 （Web of Science, 截至2022年4月），Google Scholar总引用11000余次，H因子54；多次受邀在顶级权威学术期刊（包括 Surface Science Reports、Physics Reports、Materials Science and Engineering R: Reports和Progress in Materials Science等）发表专题综述。应主编邀请撰写英文书章节7章，合编英文专刊10余本，中文教材及工具书5本。授权的软件著作权及国内外发明专利20余项。在国际会议上作大会报告和邀请报告30余次。

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代表性论文

微尺度气体流动(selected 5)

• Y. Wang, S. Nolte, G. Gaus, Z. Tian, A. Amann-Hildenbrand, B. Krooss, M. Wang*. An early-time solution of pulse-decay method for permeability measurement of tight rocks. Journal of Geophysical Research-Solid Earth 126: e2021JB022422, 2021

• Z.Y. Wang, M. Wang* S. Chen. Coupling of high-Knudsen and non-ideal gas effects in microporous media. Journal of Fluid Mechanics 840: 56-73, 2018

•M. Wang, X. Lan and Z. Li*. Analysis of Gas flows in Micro- and Nanochannels. Int. J. Heat Mass Transfer. 51(13-14): 3630-3641, 2008

•M. Wang, Z. Li*. Simulations for gas flows in microgeometries using the direct simulation Monte Carlo method. Int. J. Heat Fluid Flow, 25(6): 975-985, 2004

•M. Wang *, Z. Li. Nonideal gas flow and heat transfer in micro- and nanochannels using the direct simulation Monte Carlo method. Physical Review E. 68: 046704, 2003

微尺度液体流动与电动输运(selected 5)

• A. Alizadeh and M. Wang*. Flexibility of inactive electrokinetic layer at charged solid-liquid interface in response to bulk ion concentration Journal of Colloid and Interface Science 534: 195-204, 2019

•L. Zhang, M.A. Hesse and M. Wang. Transient solute transport with sorption in Poiseuille flow. Journal of Fluid Mechanics 828: 733-752, 2017

•J. Liu, M. Wang, S. Chen and M. Robbins*. Uncovering Molecular Mechanisms of Electrowetting and Saturation with Simulations. Physical Review Letters. 108: 216101, 2012

•M. Wang* and Q. Kang. Electrokinetic transport in microchannels with random roughness. Analytical Chemistry 81 (8), 2953-2961, 2009

•M. Wang*, and S. Chen. Electroosmosis in homogeneously charged micro- and nanoscale random porous media. Journal of Colloid and Interface Science 314(1): 264-273, 2007

微尺度多相流动(selected 5)

• F.L. Liu and M. Wang*. Phase Diagram for Preferential Flow in Dual Permeable Media. Journal Fluid Mechanics 948: A19, 2022

• F.L. Liu and M. Wang*. Trapping Patterns during Capillary Displacements in Disordered Media. Journal Fluid Mechanics 933: A52, 2022

• W. Lei, X.K. Lu, F.L. Liu, and M. Wang*. Nonmonotonic wettability effects on displacement in heterogeneous porous media. JFM-Rapids, 2022

• C.Y. Xie, W. Lei, M. Balhoff, M. Wang* and S. Chen. Self-adaptive preferential flow control using displacing fluid with dispersed polymers in heterogeneous porous media. Journal Fluid Mechanics 906: A10, 2021 (cover page)

• C.Y. Xie, J. Zhang, V. Bertola, M. Wang*. Lattice Boltzmann Modeling for Multiphase Viscoplastic Fluid Flow. Journal of Non-Newton Fluid Mechanics 234: 118-128, 2016

微孔介质多物理化学耦合输运(selected 5)

• Y.K. Yang, X.D. Zhang, Z.G. Tian, G. Deissmann, D. Bosbach, P. Liang* and M. Wang*. Ionic Thermodiffusion in Nanoconfined Aqueous Electrolytes. Journal of Colloid and Interface Science 619: 331-338, 2022

• A. Alizadeh, X. Jin and M. Wang*. Pore-scale Study of Ion Transport Mechanisms in Inhomogeneously Charged Nanoporous Rocks: Impact of Interface Properties on Macroscopic Transport. Journal of Geophysical Research-Solid Earth 124: 017200, 2019

•L. Zhang and M. Wang*. Electro-osmosis in inhomogeneously charged microporous media by pore-scale modeling. Journal of Colloid and Interface Science. 486: 219-231, 2017

•L. Zhang, M. Wang*. Modeling of electrokinetic reactive transports using a coupled lattice Boltzmann method. Journal of Geophysical Research-Solid Earth. 120: 2877-2890, 2015

•M. Wang*, Q. Kang, H. Viswanathan and B. Robinson. Modeling of electro-osmosis of dilute electrolyte solutions in silica microporous media. J. Geophysical Research-Solid Earth 115: B10205, 2010

量子流体力学理论 (selected 5)

• W.L. Miao, M. Wang*. Nonequilibrium effects on electron-phonon coupling constant in metals. Physical Review B 103: 125412, 2021

• Y.F. Huang and M. Wang*. Nonnegative magnetoresistance in hydrodynamic regime of electron fluid transport in two-dimensional materials. Physical Review B 104: 155408, 2021

• Y. Guo, M. Wang*. Phonon hydrodynamics for nanoscale heat transport at ordinary temperature. Physical Review B 97: 035421, 2018

• Y. Guo, D. Jou, M. Wang*. Nonequilibrium thermodynamics of phonon hydrodynamic model for nanoscale heat transport. Physical Review B 2018

• Y. Guo, M. Wang*. Heat transport in two-dimensional materials by directly solving phonon Boltzmann equation under Callaway’s dual relaxation model. Physical Review B 96: 134312, 2017

微尺度能量渗流 (selected 5)

•C. Xie, J. Wang N. Pan, D. Wang and M. Wang*. Lattice Boltzmann modeling of thermal conduction in composite materials with thermal contact resistance. Communications in Computational Physics. 17: 1037-1055, 2015

•M. Wang*, X. Wang, J.K. Wang and N. Pan. Grain size effects on effective thermal conductivity of porous materials with internal thermal contact resistance. Journal Porous Media. 16(11): 1043-1048, 2013

•M. Wang*, N. Pan. Modeling and prediction of the Effective Thermal Conductivity of Random Open-cell Porous Foams. Int. J. Heat Mass Transfer. 51(5-6): 1325-1331, 2008

•M. Wang, J. He, J. Yu and N. Pan. Lattice Boltzmann modeling of the effective thermal conductivity for fibrous materials. Intentional Journal of Thermal Sciences 46(9): 848-855, 2007

•M. Wang*, J. Wang, N. Pan, and S. Chen. Mesoscopic Predictions of the Effective Thermal Conductivity of Microscale Random Porous Media. Physical Review E. 75: 036702, 2007

热力学分析及优化(selected 5)

•Y. Guo, M. Wang*. Thermodynamic analysis of gas flow and heat transfer in microchannels. International Journal of Heat and Mass Transfer 103: 773-782, 2016

•Y. Guo, Z. Y. Wang, M. Wang*. Thermodynamic extreme principles for non-equilibrium stationary state in heat conduction. Journal of Heat Transfer 139(7): 071303, 2017

•X. Shan, M. Wang* and Z. Guo. Geometry optimization of self-similar transport network. Mathematical Problems in Engineering. 2011: 421526, 2011

•X. Liu, M. Wang*, J. Meng, E. Ben-Naim and Z. Guo. Minimum dissipation principle for the optimization of transport networks. International Journal of Non-linear Science and Numerical Simulations 11(2): 113-120, 2010

•Q. Chen, M. Wang*, N. Pan, and Z. Guo. Optimization principles for convective heat transfer enhancement. Energy. 34(9): 1199-1206, 2009

页岩油/气勘探开发中的输运(selected 5)

• C.Y. Xie, W. Lv, and M. Wang*. Shear-thinning or Shear-thickening Fluid for Better EOR? — A Direct Pore-scale Study. Journal of Petroleum Science and Engineering 161: 683-691, 2018

• Q. Lv, Z. Chen and M. Wang*. An improved elastic-tube model for the correlation of permeability and stress with correction for the Klinkenberg effect. Journal of Natural Gas Science and Engineering 48: 24-35, 2017

• J. Zheng, Z. Wang, W. Gong, Y. Ju and M. Wang*. Morphology effects of shale nanopores on gas permeability using lattice Boltzmann modeling. Journal of Natural Gas Science and Engineering 47: 83-90, 2017

• Z.Y. Wang, X. Jin, X. Wang, L. Sun, M. Wang*. Pore-scale geometry effects on gas permeability in shale. Journal of Natural Gas Science and Engineering 34: 948-957, 2016

• Z.Y. Wang, Y.Y. Guo, M. Wang*. Permeability of high-Kn real gas flow in shale and production prediction by pore-scale modeling. Journal of Natural Gas Science and Engineering 28: 328-337, 2016

放射性废物防护中的输运（selected 5）

• Y.K. Yang and M. Wang*. Electrodiffusion of cations in compacted clay: a pore-scale view. Environmental Science & Technology 53(4): 1976-1984, 2019

• T. Wu*,#, Y.K. Yang#, Z. Wang, Y.H. Tong, M. Wang*. Enhance of anion diffusion caused by the smectite illitization. Water Resource Research. 56(11): e2019WR027037, 2020

• Y.K. Yang, R.A. Patel, S.V. Churakov*, N.I. Prasianakis, G. Kosakowski and M. Wang *. Multiscale modeling of ion diffusion in cement paste: electrical double layer effects. Cement and Concrete Composites 96: 55-65, 2019

• Y.K. Yang, M. Wang *. Pore-scale study of thermal effects on ion diffusion in clay with inhomogeneous surface charge. Journal of Colloid and Interface Science 514: 443-451, 2018

• Y. Yang, X.T. He, M. Li and M. Wang *. Pore-scale modeling of chloride ionic diffusion in cement microstructures. Cement and Concrete Composites 85: 92-104, 2018

流-固-热耦合输运(selected 5)

• Z.Q. Chen, D. Elsworth and M. Wang*. Does low-viscosity fracturing always create complex fractures? Journal of Geophysical Research-Solid Earth 125(9): e2020JB020332, 2020

• Z. Chen, X. Jin and M. Wang*. A new thermo-mechanical coupled DEM model with non-spherical grains for thermally induced damage of rocks. Journal of the Mechanics and Physics of Solids 116: 54-69, 2018

• Z. Chen, Z. Yang and M. Wang*. Hydro-mechanical coupled mechanisms of hydraulic fracture propagation in rocks with cemented natural fractures. Journal of Petroleum Science and Engineering 163: 421-434, 2018

• Z. Chen and M. Wang*. Pore-scale modeling of hydro-mechanical coupling mechanics in hydro-fracturing. Journal of Geophysical Research-Solid Earth 122: JB013989, 2017

• Y. Chen, Q. Kang, Q. Cai*, M. Wang*, D. Zhang. Lattice Boltzmann simulations of particle motion in binary immiscible fluids Communication in Computational Physics 18(3): 757-786, 2015

跨尺度模拟(selected 5)

• Z.Y. Wang, M. Wang* S. Chen. Coupling of high-Knudsen and non-ideal gas effects in microporous media. Journal of Fluid Mechanics 840: 56-73, 2018

• Y.K. Yang, M. Wang*. Upscaling scheme for long-term ion electrodiffusion in microporous media. Physical Review E 96: 023308, 2017

• C.Y. Xie, A.Q. Raeini, Y. Wang, M. Blunt*, M. Wang*. An improved pore-network model with viscous coupling effect via direct simulation by lattice Boltzmann method. Advances in Water Resources. 100: 26-34, 2017

• G. Liu, J. Zhang and M. Wang*. Drop movements and replacement on surface driven by shear force via hybrid atomistic-continuum simulations. Molecular Simulation. 42(10): 855-862, 2016

• S. Chen*, M. Wang, and Z. Xia. Multiscale fluid mechanics and modeling. Procedia IUTAM 10: 100-114, 2014

介尺度高效算法(selected 5)

• X. Ran, M. Wang*. Efficiency improvement of discrete-ordinates method for interfacial phonon transport by Gauss-Legendre integral for frequency domain. Journal of Computational Physics 399: 108920, 2019

• Y. Guo, M. Wang*. Lattice Boltzmann modeling of phonon transport. Journal of Computational Physics 315: 1-15, 2016

• M. Wang*, and Q. Kang. Modeling electrokinetic flows in microchannels using coupled lattice Boltzmann methods. Journal of Computational Physics, 229: 728-744, 2010

• M. Wang*, and N. Pan. Elastic property of multiphase composites with random microstructures. Journal of Computational Physics 228: 5978-5988, 2009

• M. Wang*, J. Wang, and S. Chen. Roughness and Cavitations effects on Electro-osmotic Flows in Rough Microchannels using the Lattice Poisson-Boltzmann Methods. Journal of Computational Physics. 226(1): 836-851, 2007

综述文章 (selected 5)

•M. Wang, N. Pan. Predictions of Effective Physical Properties of Complex Multiphase Materials. Material Science and Engineering-R: Reports. 63(1): 1-30, 2008 [约稿当年IF=17.731]

• X. Wang, B. Ding, G. Sun, M. Wang and J. Yu. Electro-spinning/netting. Progress in Materials Science.58: 1173-1243, 2013 [约稿当年IF =25.87]

• Y. Guo, M. Wang. Phonon hydrodynamics and its applications in nanoscale heat transport. Physics Reports. 595: 1-44, 2015 [约稿当年IF =22.91]

• H. Tian, M. Wang. Electrokinetic mechanisms of wettability alternation at oil-water-rock interface. Surface Science Reports 72: 369-391, 2017 [约稿当年IF =17.8]

• W. Lei, X.K. Lu and M. Wang*. Multiphase displacement mechanism by micro/nanoparticle suspension in porous media via microfluidic experiments: From interface science to multiphase flow patterns. Advances in Colloid and Interface Science 311: 102826, 2023 [约稿当年IF=15.19]