Index > People > Academic Members > Moran WANG

Moran WANG

2011-11-09

Moran WANG Professor

Scientific Profile

Education
Ph.D  Department of Engineering Mechanics, Tsinghua University 2004
B.S., Department of Engineering Mechanics, Tsinghua University 1999

Research Experiences
2011.5 - present, Professor @ School of Aerospace, Tsinghua University
2008.5 - 2011.5, Oppenheimer Fellow @ Earth and Environmental Sciences Division (EES) & Center of Nonlinear Studies (CNLS), Los Alamos National Laboratory
2007.1 - present, Visiting Scientist @ Department of Mechanical Engineering, Johns Hopkins University
2006.3 - 2008.4, Research Associate @ Nanomaterials in the Environment, Agriculture & Technology (NEAT) & Department of Biological and Agricultural Engineering, University of California at Davis
2004.9 - 2006.2, Postdoctoral Research Fellow @ Department of Mechanical Engineering, Johns Hopkins University
1999.9 - 2004.7, Research Assistant @ Department of Engineering Mechanics, Tsinghua University

Recent Competitive Awards/Honors
2011   Backbone talent support plan of Tsinghua University
2010  LAAP Publication Award
2008  J. Robert Oppenheimer Fellowship Award
2006  National Distinguished Ph.D Dissertation of China, Honorable Mention
2004  Distinguished Ph.D Dissertation of Tsinghua University
2004  Distinguished Ph.D graduate of Tsinghua University (Only one in School of Aerospace)
2004  "Academic NewStar" Prize of Tsinghua University. (The highest academic honor for graduate students)
2004  "NSK" Sino-Japan Friendship Best Paper Award

Recent Competitive Awards/Honors
2011   Backbone talent support plan of Tsinghua University
2010  LAAP Publication Award
2008  J. Robert Oppenheimer Fellowship Award
2006  National Distinguished Ph.D Dissertation of China, Honorable Mention
2004  Distinguished Ph.D Dissertation of Tsinghua University
2004  Distinguished Ph.D graduate of Tsinghua University (Only one in School of Aerospace)
2004  "Academic NewStar" Prize of Tsinghua University. (The highest academic honor for graduate students)
2004  "NSK" Sino-Japan Friendship Best Paper Award

Relevant Academic Services
Editorship: Associate Editor, Energy (2012~2014, Elsevier)
Editorial Board Member, Transport in Porous Media (2012~, Springer)
Associate Editor, Special Topics & Reviews in Porous Media (2010~, Begellhouse)
Editorial Board Member, Journal of Porous Media (2010~, Begellhouse)
Associate Editor, Mathematical Problems in Engineering (2010~, Hindawi)
Editorial Board Member, Micro and Nanosystems (2010~, Bentham)
Editorial Board Member, Advances in Mechanical Engineering (2008~, Hindawi)
Area Editor: Multiphase Transport in Porous Media, Thermopedia (2010~)
Guest Editor: Special Issue of “Micro/Nanotransport Phenomena in Renewable Energy and Energy Efficiency” on Advances in Mechanical Engineering, with G. P. "Bud" Peterson, Gang Chen, and Chen Li (2010)
Membership: ASME(2003~), APS(2005~), AIAA(2003~), Chinese Thermophysics Society (2001~)

Publications

Books and Book Chapters

Book Chapters
3.  Moran Wang. Microscale gas flow dynamics and molecular models for gas flow and heat transfer. Microfluidics and Nanofluidics Handbook. Ed. by S. K. Mitra and S. Chakraborty. CRC Press/Taylor & Francis Group, LLC. 2010
2.  Moran Wang. Analysis of electroosmotic microfluidics by the lattice Poisson-Boltzmann method. Encyclopedia of Microfluidics and Nanofluidics. Ed. by Dongqing Li, Springer, Berlin, Heidelberg, New York, pp. 985-999, 2008
1.  Moran Wang and Zhixin Li. Micro- and nanoscale gas fluidics. Encyclopedia of Microfluidics and Nanofluidics. Ed. by Dongqing Li, Springer, Berlin, Heidelberg, New York, pp.1287-1294, 2008

Books (citations>800)
5.  G. P. Peterson, Chen Li, Moran Wang and Gang Chen. Edit: Micro/Nanotransport Phenomena in Renewable Energy and Energy Efficiency, on AME, 2010
4.  Moran Wang. Scientific Computation with MATLAB (Second Edition) Publishing House of Electronics Industry, Beijing, China, 2003.9 (In Chinese)
3.  Moran Wang. Modeling and Dynamic Simulating with Simulink 4. Publishing House of Electronics Industry, 2002.1 (Recommended Book by Mathwork) (In Chinese)
2.  Moran Wang. Scientific Computation with MATLAB 6.0. Publishing House of Electronics Industry, Beijing, China, 2001.10 (In Chinese)
1.  Moran Wang. MATLAB Version 5.X and Scientific Computing. Tsinghua University Press, Beijing, China, (1st Ed. 2000.5; 2nd Ed. 2001.5) (In Chinese)
In Journals (citations>900)
2012
85. J. Liu, M. Wang, S. Chen and M. Robbins*. Uncovering Molecular Mechanisms of Electrowetting and Saturation with Simulations. Physical Review Letters (Impact Factor: 7.621) In Press, 2012
84. M. Wang*. Structure effects on electro-osmosis in microporous media. Journal of Heat Transfer-ASME In Press, 2012
83. J. Lin, X. Wang, B. Ding*, J. Yu and M. Wang*. Biomimicry via Electrospinning. Critical Reviews in Solid State and Materials Sciences (Impact Factor: 6.143) In Press, 2012
2011
82. X. Wang, B. Ding*, J. Yu and M. Wang*. Engineering Biomimetic Superhydrophobic Surfaces of Electrospun Nanomaterials. Nano Today. 6: 515-535, 2011 (Impact Factor: 11.75)
81. M. Wang*, N. Yang and Z. Guo. Non-Fourier heat conductions in nanomaterials. Journal of Applied Physics 110: 064310, 2011
80. X.D. Shan, M. Wang*, Z. Guo. Geometry Optimization of Self-similar Transport Network. Mathematical Problems in Engineering 2011: 421526, 2011
79. X. Wang, B. Ding*, J. Yu and M. Wang Highly Sensitive Humidity Sensors Based on Electro-spinning/netting Polyamide 6 Nano-fiber/net Modified by Polyethyleneimine. Journal of Materials Chemistry. 21(40): 16231-16238, 2011 (Impact Factor: 5.099)
78. B. Ding*, X. Wang, JY Yu, and M. Wang. Polyamide 6 composite nano-fiber/net functionalized by polyethyleneimine on quartz crystal microbalance for highly sensitive formaldehyde sensors. Journal of Materials Chemistry. 21(34): 12784-12792, 2011 (Impact Factor: 5.099)
77. J. Lin, Y. Cai, X. Wang, B. Ding*, J. Yu, and M. Wang. Fabrication of biomimetic superhydrophobic surfaces inspired from lotus leaf and silver ragwort leaf. Nanoscale. 3: 1258-1262, 2011 (Impact Factor: 4.1)
76. Q. Chen*, J. Wu, M. Wang, N. Pan, and Z. Guo. A New Approach for Energy Conservation of Heat Exchanger Groups. Chinese Science Bulletin. 56(4-5): 449-454, 2011
2010
75. B. Ding*, M. Wang*, X. Wang, J. Yu and G. Sun. Electrospun nanomaterials for ultrasensitive sensors. Materials Today. 13(11): 16-27, 2010 (Impact Factor: 12.929)
74. 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
73. M. Wang* and Z. Guo. Understanding of size and temperature dependences of effective thermal conductivity of nanotubes. Physics Letter A 374: 4312-4315, 2010
72. M. Wang, B. Cao, and Z. Guo*. General Heat Conduction Equation Based on Thermomass Theory. Frontiers in Heat and Mass Transfer. 1: 013005, 2010
71. M. Wang. The Physical Chemistry of Materials: Energy and Environmental Applications. Materials Today. 13(3): 67, 2010 (Impact Factor: 12.929)
70. M. Wang*, and A. Revil. Electrochemical charge of silica surfaces at high ionic strength in narrow channels. Journal of Colloid and Interface Science 343: 381-386, 2010
69. M. Wang* and Q. Kang. Electrochemomechanical energy conversion efficiency in nanofluidic channels. Microfluidics and Nanofluidics. 9(2): 181-190, 2010
68. M. Wang*, C.C. Chang, and R.J. Yang. Electroviscosity in nanofluidic channels. J. Chemical Physics 132: 024701, 2010
67. M. Wang*, Q. Kang and E. Ben-Naim. Modeling of electrokinetic transport in nanofluidic channels. Analytica Chimica Acta 664: 158-164 , 2010 (IF: 4.31)
66. M. Wang*, and Q. Kang. Modeling electrokinetic flows in microchannels using coupled lattice Boltzmann methods. Journal of Computational Physics, 229: 728-744, 2010
65. J. Liu*, M. Wang, S. Chen and M.O. Robbins. Molecular simulations of electroosmotic flows in rough nanochannels. J. Comput. Phys. 229: 7834-7847, 2010
64. X. Liu, Q. Chen*, M. Wang*. N. Pan, Z. Guo. Multi-dimensional effects on optimal network structure for liquid distributors. Chemical Engineering and Processing 49(10): 1038-1043, 2010
63. X. Liu, M. Wang*, J. Meng, E. Ben-Naim and Z. Guo. Minimum entransy dissipation principle for the optimization of transport networks. International Journal of Non-linear Science and Numerical Simulations 11(2): 113-120, 2010
62. Q. Kang, M. Wang*, P. Mukherjee, and P. C. Lichtner. Mesoscopic modeling of multi-physiochemical transport in porous media. In: Micro/Nanotransport Phenomena in Renewable Energy and Energy Efficiency, on Advances Mechanical Engineering, 2010: 142879, 2010
61. Q. Chen, M. Wang*, and Z. Guo. Field Synergy Principle for Energy Conservation and Applications. In: Micro/Nanotransport Phenomena in Renewable Energy and Energy Efficiency, on Advances Mechanical Engineering, 2010: 129313, 2010
60. M. Guo, B. Ding*, X. Li, X. Wang, J. Yu, and M. Wang Amphiphobic Nanofibrous Silica Mats with Flexible and High Heat-resistant Properties. J. Phys. Chem. C. 114: 916-921, 2010 (IF: 4.52)
59. X. Wang, B. Ding*, J. Yu, M. Wang, and K. Pan. A highly sensitive humidity sensor based on nanofibrous membranes coated quartz crystal microbalance. Nanotechnology 21: 055502, 2010
58. X. Mao, B. Ding*, M. Wang and Y. Yin, Self-assembly of phthalocyanine and polyacrylic acid composite multilayers on cellulose nanofibers, Carbohydrate Polymers, 80: 839-844, 2010
57. Q. Chen*, K. Yang, M. Wang, N. Pan, Z. Guo. A New Approach to Analysis and Optimization of Evaporative Cooling System I: Theory. Energy 35(6): 2448-2454, 2010
56. M. Wang*, Q. Chen, Q. Kang, N. Pan, and E. Ben-Naim. Nonlinear effective properties of unsaturated porous materials. International Journal of Non-linear Science and Numerical Simulations 11(1): 49-56, 2010
2009
55. M. Wang* and Q. Kang. Electrokinetic transport in microchannels with random roughness. Analytical Chemistry 81 (8), 2953-2961, 2009 (Impact Factor: 5.874)
54. Q. Chen, M. Wang*, N. Pan, and Z. Guo. Optimization Principle for Varying Viscosity Fluid Flow and Its Application to Heavy Oil Flow Drag Reduction. Energy and Fuels. 23, 4470–4478, 2009
53. Q. Chen, M. Wang*, N. Pan, and Z. Guo. Optimization principles for convective heat transfer enhancement. Energy. 34(9): 1199-1206, 2009
52. M. Wang*, and N. Pan. Elastic property of multiphase composites with random microstructures. Journal of Computational Physics 228: 5978-5988, 2009
51. M. Wang*, Q. Kang, and N. Pan. Thermal conductivity enhancement of carbon fiber composites. Applied Thermal Engineering. 29: 418-421, 2009
50. B. Ding*, M. Wang, J. Yu and G. Sun. Gas Sensors Based on Electrospun Nanofibers. Sensors, 9(3), 1609-1624 (doi:10.3390/s90301609), 2009
49. Q. Chen, M. Wang, N. Pan*, and Z. Guo. Irreversibility of heat conduction in complex multiphase systems and its application to the effective thermal conductivity of porous media International Journal of Non-linear Science and Numerical Simulations 10 (1): 57-66, 2009
2008
48. M. Wang, N. Pan. Predictions of Effective Physical Properties of Complex Multiphase Materials. Material Science and Engineering-R: Reports. 63(1): 1-30, 2008 (Impact Factor: 17.731)
47. M. Wang*, and 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
46. M. Wang*, and S. Chen. On applicability of Poisson-Boltzmann equation for micro- and nanoscale electroosmotic flows. Communications in Computational Physics 3(5): 1087-1099, 2008
45. 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
44. F. Meng, M. Wang, Z. Li*, Lattice Boltzmann Simulations of Conjugate Heat Transfer in High-Frequency Oscillating Flows. Int. J. Heat Fluid Flow. 29(4): 1203-1210, 2008
43. J. Wang, M. Wang*, and Z. Li. Lattice Evolution Solution for the Nonlinear Poisson- Boltzmann Equation in Confined Domains. Communications of Nonlinear Sciences and Numerical Simulation. 13(3): 575-583, 2008
2007
42. M. Wang* J. Liu, and S. Chen. Electric potential distribution in nanoscale electroosmosis: from molecules to continuum. Molecular Simulation. 33(15): 1273 - 1277, 2007
41. M. Wang*, J. Liu, S. Chen. Similarity of Electro-osmotic flows in nanochannels. Molecular Simulation. 33(3): 239-244, 2007
40. 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
39. M. Wang*, F. Meng, and N. Pan. Transport properties of functionally graded materials. Journal of Applied Physics 102: 033514, 2007 (also be selected for the August 27, 2007 issue of Virtual Journal of Nanoscale Science & Technology)
38. M. Wang*, and N. Pan. Numerical analyses of the effective dielectric constant of multiphase microporous media. Journal of Applied Physics 101: 114102, 2007
37. M. Wang*, J. Wang, N. Pan, S. Chen, and J. He. Three dimensional effect on the effective thermal conductivity of porous media. J. Phys. D: Appl. Phys. 40(1): 260–265, 2007
36. M. Wang*, N. Pan, J. Wang, and S. Chen. Mesoscopic simulations of phase distribution effects on the effective thermal conductivity of micro porous media. J. Colloid Interface Sci. 311(2): 562-570, 2007
35. M. Wang, J. He, J. Yu and N. Pan*. Lattice Boltzmann modeling of the effective thermal conductivity for fibrous materials. Int. J. Thermal Sci. 46(9): 848-855, 2007
34. M. Wang*, and S. Chen. Electroosmosis in homogeneously charged micro- and nanoscale random porous media. J. Colloid Interface Sci. 314(1): 264-273, 2007
33. M. Wang*, N. Pan, J. Wang and S. Chen. Lattice Poisson-Boltzmann Simulations of Electroosmotic Flows in Charged Anisotropic Porous Media. Communications in Computational Physics 2(6): 1055-1070, 2007
32. 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
31. J. Wang, M. Wang, and Z. Li*. A Lattice Boltzmann Algorithm for Fluid-Solid Conjugate Heat Transfer. Int. J. Thermal Sci. 46(3) 228-234, 2007
30. M. Wang*, Z. Li. An Enskog based Monte Carlo method for high Knudsen number non-ideal gas flows. Computer & Fluids 36(8): 1291-1297, 2007
29. M. Wang*, M. Macrossan and Z. Li. Relaxation Time Simulation Method with Internal Energy Exchange for Perfect Gas Flow at Near-Continuum Conditions. Communications of Nonlinear Sciences and Numerical Simulation. 12(7): 1277-1282, 2007
28. H. Liu, M. Wang*, J. Wang et al. Monte Carlo simulations of gas glow and heat transfer in vacuum packaged MEMS devices. Applied Thermal Engineering. 27: 323-329, 2007
2006
27. M. Wang*, J. Wang, S. Chen, and N. Pan. Electrokinetic Pumping Effects of Charged Porous Media in Microchannels using the Lattice Poisson-Boltzmann Method. J. Colloid Interface Sci. 304(1): 246-253, 2006
26. J. Wang, M. Wang*, and Z. Li. Lattice Poisson-Boltzmann Simulations of Electro-osmotic Flows in Microchannels. Journal of Colloid and Interface Science 296(2): 729-736, 2006; Corrigendum: JCIS, 300(1): 446-446, 2006
25. M. Wang*, Z. Li. Gas mixing in microchannels using the direct simulation Monte Carlo method. Int. J. Heat Mass Transfer 49: 1696-1702, 2006
24. F. Meng*, M. Wang, Z. Li. Lattice Boltzmann Simulations of Oscillating Flow and Heat Transfer under Linearization Assumption. Journal of Jilin University. 36(s1): 110-115, 2006
23. J. Wang*, M. Wang, and Z. Li. Lattice evolution based algorithm for solving the nonlinear Poisson equation. J. Engineering Thermophysics. 27(2):316-318, 2006 (In Chinese)
2005 and before
22. M. Wang, Z. Li*. Monte Carlo simulations of dense gas flow and heat transfer in micro- and nano-channels. Science in China Ser. E, Engineering & Materials Science, 48(3): 317-325, 2005
21. J. Wang*, M. Wang, and Z. Li. Lattice Boltzmann simulations of mixing enhancement by the electro-osmotic flow in microchannels. Modern Physics Letters B. 19:1515-1518, 2005
20. M. Wang, Z. Li*. Statistical Simulation of Gas Flow and Heat Transfer in Micro Air Bearing. Tribology 25(1): 55-60, 2005 (In Chinese)
19. M. Wang*, Z. Li. Failure analysis of the molecular block model for the direct simulation Monte Carlo method. Physics of Fluids, 16(6): 2122-2125, 2004
18. M. Wang*, Z. Li. Micro- and nanoscale non-ideal gas poiseuille flows in a consistent Boltzmann algorithm model. J. Micromechanics and Microengineering. 14(7): 1057-1063, 2004
17. 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
16. M. Wang, Z. Li*. Numerical Simulations on Performance of MEMS-Based Nozzles at Moderate or Low Temperatures. Microfluidics and Nanofluidics, 1(1): 62-70, 2004
15. M. Wang*, Z. Li. A Monte Carlo Method for Perfect Gas Near-Continuum Flows. Recent Advances in Fluid Mechanics. pp. 716-719, 2004
14. M. Wang*, Z. Li. Valve-less thermally-driven moving-phase-change micropump. Tsinghua Science and Technology. 9(6): 688-693, 2004
13. Z. Li*, M. Wang, X. Yao, Z.Y. Guo. Pumping mechanism of thermally driven phase transition micropump. Microscale Thermophysical Engineering. 8(1): 31-42, 2004
12. Wang M.*, Li Z. Three-dimensional effect of gas flow in micro channels. Journal of Engineering Thermophysics. 25(5): 840-842, 2004 (In Chinese)
11. Wang M.*, Wang J., Li Z. New boundary condition implements for the DSMC method. Chinese Journal of Computational Physics. 21(3): 48-52, 2004 (In Chinese)
10. 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
9. M. Wang*, Z. Li. Similarity of ideal gas flow at different scales. Science in China E. 46(6): 661-670, 2003
8. Wang M.*, Chen Z., Li Z. Simulations and optimization for micro gas flowmeter. Micronanoelectronic Technology, (7/8): 61-65, 2003 (In Chinese)
7. Wang M.*, Chen Z., Li Z. Simulation and analysis of gas flow and heat transfer in micro nozzle. Micronanoelectronic Technology, (7/8): 66-68, 2003 (In Chinese)
6. M. Wang*, Z. Li, Z. Chen. The pumping effect of traveling phase transition in microtubes. International Journal of Nonlinear Sciences and Numerical Simulation, 3: 565-568, 2002
5. Z. Li*, M. Wang, L. Tan. Experimental investigation on phase transformation type micropump. Chinese Science Bulletin 47: 518-522, 2002
4. Wang M.*, Li Z. Microscale Thermal Science and its Applications in MEMS. Journal of Instrument Technology and Sensors, (7): 1-4, 2002 (in Chinese)
3. Wang M.*, Li Z. Investigation Process of Micropump Based on MEMS. Journal of Transducer Technology. 21(6): 59-61, 2002 (in Chinese)
2. Wang M.*, Li Z. Investigation Process in MEMS-based Micro Fluid Machinery Fluid Machinery. 30(4): 23-28, 2002 (in Chinese)
1. Wang M.*, Li Z., Tan L. Pumping Mechanism of the phase Transition Type Micropump. Mechanical Science and Technology, 21(6): 966-968, 2002 (In Chinese)

In Conferences
• M. Wang. Non-Fourier conduction in nanomaterials based on thermomass theory. International Forum on Frontier Theories of Thermal Science (IF2T2S), Beijing, China, Dec. 19, 2011
• M. Wang. Correlations between microstructure and effective properties of Multiphase porous materials. The 11th Seoul National – Kyoto – Tsinghua University Thermal Engineering Conference. Jeju, South Korea, November 4-5, 2011
• M. Wang. Studies on effective properties of multiphase porous media. National conference of engineering thermophysics society: Heat and Mass Transfer, Xi’an, China, October 15-17, 2011
• M. Wang. Mechanism and efficiency analysis of mechanical-to-electrical energy conversion using the fluid flow in nanochannels. The energy and nanotech symposium of Tsinghua Universities on two sides of Taiwan Straits. Beijing, China, October 18-20, 2011
• M. Wang, N. Pan, and Q. Kang. Modeling of Thermal Transport Properties of Multiphase Porous Materials. The ASME International Heat Transfer Conference, Washington, August 8-13, 2010
• M. Wang, Q. Kang, and H. Viswanathan. Numerical modeling of electrokinetic transport and mixing enhancement in heterogeneously charged microchannels. Proceedings of the ASME Micro/Nanoscale Heat and Mass Transfer International Conference 2009, MNHMT2009 1, pp. 195-202
• J. Liu, M. Wang, S. Chen, and M. Robbins. Molecular simulations of electrokinetic transport in nanofluidics. Proceedings of the ASME Micro/Nanoscale Heat and Mass Transfer International Conference 2009, MNHMT2009 1, pp. 233-241
• Q. Chen, J. Wu, M. Wang and Z. Guo Optimization Criterions for Heat Exchangers with Different Applications. CHE2009, San Jose, Sep. 13-19, 2009
• M. Wang, J. Liu, Q. Kang. Electrokinetic transport in realistic nanochannels. 62nd Annual Meeting of the APS Division of Fluid Dynamics, Minneapolis, Minnesota, Nov. 22-24, 2009
• Q. Kang, M. Wang, and P. C. Lichtner, Lattice Boltzmann Simulation of Coupled Fluid Flow and Multi-Physicochemical Transport Phenomena in Complex Media, The 18th International Conference on the Discrete Simulation of Fluid Dynamics, July 6-10, 2009, Beijing, China.
• M. Sun, B. Ding, J. Yu, M Wang. Highly Sensitive Chloramphenicol Biosensors Based on Electrospun Nanoporous Fibrous Membranes and Self-assembled Antibody Monolayers. Nano2009, Beijing, China, Sep. 2009
• M. Guo, B. Ding, X. Wang, J. Yu, M Wang. Flexible, Super-hydrophobic, High Temperature Resistant Inorganic Nanofibrous Membranes via Electrospinning. Nano2009, Beijing, China, Sep. 2009
• B. Ding, X. Mao, Y. Yin, X. Wang, M. Wang. Modification of Cellulose Nanofibrous Membranes with Phthalocyanine and Polyacrylic Acid via the Electrostatic Layer-by-layer Self-assembly Nano2009, Beijing, China, Sep. 2009
• M. Wang, and N. Pan. The morphology effects on properties of multiphase materials. The Fiber Society's Spring 2009 Conference. Shanghai, May 27, 2009
• Q. Kang, M. Wang, and P. C. Lichtner Lattice Boltzmann simulation of coupled fluid flow and multi-physicochemical transport phenomena in complex media, High Energy Density Plasma and Fluid Capability Review-2009, Los Alamos, 2009
• P. C. Lichtner Q. Kang, and M. Wang, Upscaling Multi-Physicochemical Processes in Porous Media from Pore to Continuum Scales. DOE-ERSP Annual PI Meeting, Lansdowne, VA, April 20-23, 2009
• Q. Kang, M. Wang, and P. C. Lichtner. AGU Meeting, Pore-scale studies of multi-component reactive transport involving CO2 sequestration in geologic formations. AGU Meeting, San Francisco, December, 2008 (Poster)
• Q. Kang, P. Lichtner, M. Wang, and P. Mukherjee. Lattice Boltzmann Modeling of Multiple Physicochemical Processes in Porous Media. Modeling and Simulation for Nuclear Energy Workshop. Los Alamos, July 29-30, 2008.
• J. Liu, M. Wang, S. Chen, Mark O. Robbins. Molecular simulation of electrokinetic flows. The 61st Annual Meeting of the APS Division of Fluid Dynamics; San Antonio, Texas, November 23–25, 2008
• P. Mukherjee, M. Wang, Q. Kang, P. Lichtner. Pore-Scale Modeling of Transport in Charged Porous Media. XVII CMWR2008, San Francisco, July 7, 2008
• P. Mukherjee, M. Wang, Q. Kang, and P. C. Lichtner, “Modeling of Transport in Charged Porous Media - a Pore-Scale Perspective,” 5th Annual Meeting -Center for Environmental Kinetics Analysis (CEKA), Pennsylvania StateUniversity, University Park, PA, October 22-24, 2008
• Q. Kang, P. C. Lichtner, and M. Wang. Lattice Boltzmann simulation of fluid flow and solute transport in porous media at the pore scale and upscaling. AGU Meeting, San Francisco, December, 2007 (Abstract)
• Moran Wang*, Shiyi Chen. On break-down of continuum theories for electroosmotic flow in nanoscale channels. APS Meeting, Utah University, Nov. 2007 (Abstract)
• Moran Wang*, Ning Pan. Thermal Conductivity of Fibrous Materials. THE FIBER SOCIETY 2007 Annual Meeting and Technical Conference, University of California at Davis, Davis, USA, Oct. 2007
• Moran Wang*, Ning Pan, and Shiyi Chen. Mesoscopic modeling and predictions of effective dielectric permittivity of multiphase micro porous media. ICNM-V, Shanghai, CHINA, June, 2007
• Fankong Meng*, Moran Wang, Zhixin Li. Lattice Boltzmann Simulations of Oscillating Flow and Heat Transfer under Linearization Assumption. International Conference on Enhancement and Promotion of Computational Methods in Engineering Science and Mechanics., Changchun, CHINA, August 2006
• Moran Wang, Jin Liu, and Shiyi Chen*. Molecular simulations of electro-osmotic flows in nano-channels: from molecules to continuum. 58th Annual Meeting of APS, the Division of Fluid Dynamics. Chicago, IL USA. Nov. 20-22, 2005 (Abstract)
• Zhixin Li, Moran Wang and Xudong Lan. Gas Flow in Micro- and Nanochannels using DSMC. In: Kyoto-Tsinghua-Seoul National University Thermal Engineering Conference, pp.1-8. Seoul, KR, Sep. 26-30, 2005
• Jinku Wang, Moran Wang, and Zhixin Li. Lattice Boltzmann simulations of mixing enhancement by the electro-osmotic flow in microchannels. International Symposium on Physics of Fluids, Huangshan, PRC, June 9-12, 2005
• Moran Wang, Zhixin Li. Gases Mixing in Microchannels using DSMC. The 3rd International Conference of Minichannel and Microchannel ASME, Toronto, CA, June 13-15, ICMM2005-75133, 2005
• Xudong Lan, Zhixin Li, Moran Wang. Similarity of microscale and rarefied gas flow. The 3rd International Conference of Minichannel and Microchannel ASME, Toronto, CA, June 13-15, ICMM2005-75146, 2005
• Moran Wang*, Zhixin Li. A Monte Carlo Method for Perfect Gas Near-Continuum Flows The Fourth International Conference on Fluid Mechanics, Dalian, PRC, 2004
• Moran Wang, Zhixin Li*. Performance Predictions of MEMS-Based Nozzles at Moderate or Low Temperatures In: Proceedings of the Second International Conference on Microchannels and Minichannels (ICMM2004), pp 731-738, Rochester, New York, USA, 2004
• Moran Wang*, Jinku Wang, Zhixin Li. Gas Flow and Heat Transfer in Microchannels with Bends Using DSMC. In: Proceedings of the 3rd International Symposium on Heat Transfer Enhancement and Energy Conservation, Vols 1&2: 3-9, Guangzhou, PRC, 2004
• Wang Moran, Li Zhixin* Three-dimensional effect of gas flow in micro channels. The 12th National Academic Conference on Engineering Thermophysics of China, Beijing, PRC, 2003 (in Chinese)
• Wang Moran, Li Zhixin*. Numerical Simulation of Gas Flow and Heat Transfer in Micro Air Bearing. The 12th National Academic Conference on Engineering Thermophysics of China, Beijing, 2003 (in Chinese)
• Wang Jinku, Wang Moran, Li Zhixin*. Numerical Simulation of External Field of Micro Synthetic Jet. The 12th National Academic Conference on Engineering Thermophysics of China, Beijing, 2003 (in Chinese)
• Wang Moran*, Chen Zejing, Li Zhixin. Simulation and Optimization of Micro Gas Flowmeter. The 6th National Micro/Nano Technology Conference. Taiyuan, 2003 (in Chinese)
• Wang Moran*, Chen Zejing, Li Zhixin. Analysis and Numerical Simulation of Micro Nozzle. The 6th National Micro/Nano Technology Conference. Taiyuan, 2003 (in Chinese)
• Moran Wang*, Li Zhixin. Valve-less Thermally-driven Phase-change Micropump. Pacific Rim Workshop on Transducers and Micro/Nano Technologies. Xiamen, PRC, 2002
• Moran Wang*, Li Zhixin, Chen Zejing. The Pumping Effect of Phase Transition in a Micro Tube. International Conference on Micro & Nano Systems, Kunming, PRC, 2002
• Xiaobo Yao, Moran Wang, Zhixin Li*, Zengyuan Guo. Pumping Mechanism of Thermally Driven Phase Transformation Type Micropump. International Symposium on Micro/Nano Scale Energy Conversion and Transport. Antalya, Turekey, 2002
• Wang Moran, Li Zhixin*. Pressure Model of Phase-change Micropump. The 10th National Academic Conference on Engineering Thermophysics of China, Qingdao, 2001 (in Chinese)
• Wang Moran, Chen Zejing, Li Zhixin*. Numerical Simulation of Gas Flow in Micro Laval Nozzles. The 5th National Micro/Nano Technology Conference. Chongqing, 2001 (in Chinese)

Contact Details

Tel: 86-10-627 8-7498(O)
E-mail:
Webpage: www.wanglab-tsinghua.com

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Events

UK-China Summer School

Prof. Rod Ruoff, International Lecture on April 18, 2012

2011 CNMM International Workshop

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CNMM Summer School in 2013

Postdoctoral Research Associate Positions