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青年教师引进

发布时间:2017-01-20  阅读次数:456

莫景文老师在2016年在香港科技大学结束博士后工作后来我系任教。莫老师的主要研究方向为:微纳流体系统、微纳传感器和热物性测量。

标志性成果:

Best Presentation Award, The 20th Annual Conference of HKSTAM, Hong Kong, 2016

[1] J.W. Mo, C. Li, L. Li, J. Wang, and Z.G. Li, Passive nanofluidic diode using non-uniform nanochannels, Physics of Fluids, 28: 082005, 2016

[2] J.W. Mo, L. Li, J. Wang, and Z.G. Li, Passive fluidic diode for simple fluids using nested nanochannel structures, Physical Review E, 93: 033101, 2016

[3] L. Li, J.W. Mo, and Z.G. Li, Nanofluidic diode for simple fluids without moving parts, Physical Review Letters, 115: 134503, 2015  (共同第一作者,被选为编辑推荐并被Physics报导) 

[4] J.W. Mo, L. Li, J. Zhou, D. Xu, B. Huang, and Z.G. Li, Fluid infiltration pressure for hydrophobic nanochannels, Physical Review E, 90: 033022, 2015

[5] J.W. Mo, D. Garrett, and H. Ban, Anisotropic effective thermal conductivity of particle beds under uniaxial compression, International Journal of Thermophysics, 36: 2621-2637, 2015

[6] J. Zhou, J.W. Mo, C. Shao, and Z.G. Li, Effects of magnetized walls on the particle structure and the yield stress of magnetorheological fluids, Journal of Magnetism and Magnetic Materials, 389: 124-129, 2015

[7] L. Li, J.W. Mo, and Z.G. Li, Flow and slip transition in nanochannels, Physical Review E, 90: 033003, 2014

[8] H. Yan, P. Zhou, Z. Xu, Z. Chen, and J.W. Mo, CFD study on the flow characteristics in the filleted microchannels, Applied Mechanics and Materials, 103: 268-273, 2011

[9] J.W. Mo and H. Ban, Measurements and modelling of effective thermal conductivity of particle beds under compression in air and vaccum, Applied Thermal Engineering (审议中)

[10] L. Li, J.W. Mo, and Z.G. Li, Self-adaptive nanopump for chip cooling, Microfluidics and Nanofluidics (审议中)

[11] C. Li, J.W. Mo and Z.G. Li, A two-stage pathway for heterogeneous ice nucleation, Nature Communications (审议中)

李冰珏老师于2016年12月在美国代顿大学获博士学位后来我系任教。

标志性成果

[1] Li, B., Murray, A., and Myszka, D., “Improving techniques in Statically Equivalent Serial Chain modeling for center of mass estimation,” J. Mechanisms Robotics 7, 011031 (2014)

[2] Li, B., Murray, A., Myszka, D., and Subsol, G., “Synthesizing planar rigid-body chains for morphometric applications”, submitted to the 2016 ASME International Design and Engineering Technical Conferences, Charlotte, NC, Aug. 21-24, 2016

[3] Li, B., Murray, A., and Myszka, D., “Designing variable-geometry extrusion dies that utilize planar shape-changing rigid-body mechanisms”, Proc. of the 2015 ASME International Design and Engineering Technical Conferences, Boston, MA, Aug. 2-5, 2015

[4] Li, B., Murray, A., and Myszka, D., “Improving techniques in Statically Equivalent Serial Chain modeling for center of mass estimation”, Proc. of the 2014 ASME International Design and Engineering Technical Conferences, Buffalo, NY, Aug. 17-20, 2014

[5] Li, B., Murray, A., and Myszka, D., “Improving techniques for center of mass estimation using Statically Equivalent Serial Chain modeling”, Proc. of the 24th Canadian Congress of Applied Mechanics Conference, Saskatoon, Saskatchewan, Canada, Jun. 2-5, 2013

 

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