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赵存陆
日期:2019-11-21 点击数: 来源 :
个人资料
姓名: 赵存陆
职称: 教授(博士生导师)
电话: 029-82663222
传真: 029-82663502
E-mail: mclzhao@mail.xjtu.edu.cn
邮编: 710049
地址: 陕西省西安市西安交通大学能动学院北四楼711室
个人介绍
工作及学习简历
2016.06-至今:西安交通大学,能源与动力工程学院,热流科学与工程系,青年拔尖人才支持计划A类,教授
2013.10-2016.03:荷兰特温特大学,复杂流体研究组,博士后
2013.01-2013.09:新加坡南洋理工大学,热与流体工程系,博士后
2007.08-2012.12:新加坡南洋理工大学,热与流体工程系,哲学博士
2004.09-2007.07:西安交通大学,工程热物理专业,工学硕士
2000.09-2004.07:西安交通大学,热能与动力工程,工学学士
研究方向
微尺度流动及传热传质
电动、热动现象及其微纳流控应用
蓝色能量收集及利用
科研项目
[1] 西安交通大学“青年拔尖人才支持计划”配套经费200万,2016-2022年,负责人
出版物 (Google scholar, citations: 586; H-index: 13)
Book chapters
1. Cunlu Zhao, Chun Yang, Chapter 2. Electrokinetic flows of non-Newtonian fluids in microfluidic channels, in Ivan A. Kuznetsov ed., Microfluidics: Theory and Applications, p. 55-101, Nova Science Pub Inc, 2011.
2. Cunlu Zhao, Chun Yang, Electrokinetics of non-Newtonian liquids, an invited entry to the 2nd edition of Encyclopedia of Microfluidics and Nanofluidics, Springer, 2014.
3. Cunlu Zhao, Chun Yang, Trapping of submicron and micron-sized particles using innovative induced-charge electrokinetic flow, in C. A. Brebbia, S. Hernández and M. Rahman ed., Advances in Fluid Mechanics X, p. 253-264, WIT Press, 2014.
Refereed journal papers [1-16]
1. Lei Wang*, Cunlu Zhao* (eaqual contribution), Daniel Wijnperle, Michel H.G. Duits, Frieder Mugele, Design of a hybrid advective-diffusive microfluidic system with ellipsometric detection for studying adsorption, Biomicrofluidics, 2016.10: p.034113.
2. Naveen Kumar, Cunlu Zhao, Aram Klaassen, Dirk van den Ende, Frieder Mugele, Igor Siretanu, Characterization of the surface charge distribution on kaolinite particles using high resolution atomic force microscopy, Geochimica et Cosmochimica Acta, 2016.175: p.100–112.
3. Cunlu Zhao, Daniel Ebeling, Igor Siretanu, Dirk van den Ende and Frieder Mugele, Extracting local surface charges and charge regulation behavior from atomic force microscopy measurements at heterogeneous solid-electrolyte interfaces, Nanoscale, 2015.7: p.16298-16311.
4. Fei Liu; Cunlu Zhao; Frieder Mugele; Dirk van den Ende, Amplitude modulation Atomic Force Microscopy, is acoustic driving in liquid quantitatively reliable?, Nanotechnology, 2015. 26: p.385703.
5. Qian Liang, Cunlu Zhao and Chun Yang, Enhancement of electrophoretic mobility of particles near solid walls, Electrophoresis, 2015. 36: p. 731–736.
6. Cunlu Zhao and Chun Yang, Induced-charge electrokinetics in a conducting nanochannel with broken geometric symmetry: Towards a flexible control of ionic transport, Physics of Fluids, 2015. 27: p.012003.
7. Lei Wang, Cunlu Zhao, Michel H.G.Duits, Frieder Mugele and Igor Siretanu, Detection of ion adsorption at solid-liquid interfaces using internal reflection ellipsometry, Sensors and Actuators B, 2015. 210: p.649–655.
8. Cunlu Zhao and Chun Yang, Ion Transport and Selection through DCGC Based Electroosmosis in a Conducting Nanofluidic Channel, microfludicis and nanofludics, 2015. 18: p. 785-794.
9. Cunlu Zhao and Chun Yang, Electrokinetics of non-Newtonian fluids: a review, Advacnes in Colloid and Interface Science, 2013. 201–202: p.94–108.
10. Yugang Zhao, Cunlu Zhao, Jinhua He, Yi Zhou and Chun Yang, Collective effect on thermophoresis of colloids:a microfluidic study within framework of the DLVO theory, Soft Matter, 2013. 9: p.7726-7734.
11. Cunlu Zhao and Chun Yang, Electroosmotic flows of non-Newtonian power-law fluids in a cylindrical microchannel. Electrophoresis, 2013. 34: p.662-667.
12. Kar Cherng Hon, Cunlu Zhao, Chun Yang and Seow Chay Low, A method of producing electrokinetic power through forward osmosis, Applied Physics Letter, 2012. 101(14):p 143902.
13. Cunlu Zhao and Chun Yang, Advances in electrokinetics and their applications in micro/nano fluidics. Microfluidics and Nanofluidics, 2012. 13(2):p.179-203.
14. Cunlu Zhao and Chun Yang, Electro-osmotic flows in a microchannel with patterned hydrodynamic slip walls. Electrophoresis, 2012. 33(6): p. 899-905.
15. Cunlu Zhao and Chun Yang, Joule heating induced heat transfer for electroosmotic flow of power-law fluids in a microcapillary. International Journal of Heat and Mass Transfer, 2012. 55(7-8): p. 2044-2051.
16. Cunlu Zhao and Chun Yang, An exact solution for electroosmosis of non-Newtonian fluids in microchannels. Journal of Non-Newtonian Fluid Mechanics, 2011. 166(17-18): p. 1076-1079.
17. Cunlu Zhao and Chun Yang, On the competition between streaming potential effect and hydrodynamic slip effect in pressure-driven microchannel flows. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2011. 386(1-3): p. 191-194.
18. Cunlu Zhao and Chun Yang, Electro-osmotic mobility of non-Newtonian fluids. Biomicrofluidics, 2011. 5(1): p. 014110-8.
19. Cunlu Zhao and Chun Yang, AC field induced-charge electroosmosis over leaky dielectric blocks embedded in a microchannel. Electrophoresis, 2011. 32(5): p. 629-637.
20. Cunlu Zhao and Chun Yang, ac electrokinetic phenomena over semiconductive surfaces: Effective electric boundary conditions and their applications. Physical Review E, 2011. 83(6): p. 066304.
21. Cunlu Zhao and Chun Yang, Nonlinear Smoluchowski velocity for electroosmosis of Power-law fluids over a surface with arbitrary zeta potentials. Electrophoresis, 2010. 31(5): p. 973-979.
22. Cunlu Zhao and Chun Yang, Analysis of Power-Law Fluid Flow in a Microchannel with Electrokinetic Effects. International Journal of Emerging Multidisciplinary Fluid Sciences, 2009. 1: p. 37-52.
23. Cunlu Zhao and Chun Yang, Exact solutions for electro-osmotic flow of viscoelastic fluids in rectangular micro-channels. Applied Mathematics and Computation, 2009. 211(2): p. 502-509.
24. Cunlu Zhao and Chun Yang, Analysis of induced-charge electro-osmotic flow in a microchannel embedded with polarizable dielectric blocks. Physical Review E, 2009. 80(4): p. 046312.
25. Cunlu Zhao, Emilijk Zholkovskij, Jacob H. Masliyah, and Chun Yang, Analysis of electroosmotic flow of power-law fluids in a slit microchannel. Journal of Colloid and Interface Science, 2008. 326(2): p. 503-510.
26. Qiuwang Wang, Cunlu Zhao, Min Zeng, and Yining Wu, Numerical investigation of rarefied diatomic gas flow and heat transfer in a microchannel using DSMC with uniform heat flux boundary condition - Part II: Applications. Numerical Heat Transfer, Part B: Fundamentals, 2008. 53(2): p. 174-187.
27. Qiuwang Wang, Cunlu Zhao, Min Zeng, and Yining Wu, Numerical investigation of rarefied diatomic gas flow and heat transfer in a microchannel using DSMC with uniform heat flux boundary condition - Part I: Numerical method and validation. Numerical Heat Transfer, Part B: Fundamentals, 2008. 53(2): p. 160-173.
28. Lin Tian, Qiuwang Wang, Gongnan Xie, Cunlu Zhao, and Laiqin Luo, Convective heat transfer and pressure drop of annular tubes with three different internal longitudinal fins. Heat Transfer - Asian Research, 2008. 37(1): p. 29-40.
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