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个人概况

张忠强 博士/博士后  副教授  博士生导师

男,1981年生,山东青岛人,大连理工大学工学博士

加州大学伯克利分校(UCB)访问学者

密西西比州立大学(MSU)访问学者

江苏省“青蓝工程”优秀青年骨干教师培养对象

澳门皇冠金沙亚洲青年学术带头人培育人选

第六届“中国青少年科技创新奖”获得者

辽宁省优秀博士学位论文获得者

大连理工大学优秀博士学位论文获得者

社会兼职

1. 江苏省光伏科学与工程协同创新中心  常务理事

2. IOP期刊Materials Research Express咨询委员会委员

3. 担任Langmuir、Nanotechnology、Microfluidics and Nanofluidics、Journal of Fluid Engineering、Computational Materials Science、Polymer Composites、Journal of Molecular Modeling、物理学报、物理化学学报、材料导报等期刊审稿人

研究领域

微纳机电系统设计、计算纳米力学

科研项目

1、国家自然科学基金面上项目,11872192,以梯度织构为基底的石墨烯覆层表面液滴自驱动行为研究. 2019/01-2022/12,63万元,正在承担、主持。

2、国家自然科学基金面上项目,11472117,低维碳材料力-电耦合流体传动纳米器件设计及传动机理分析,2015/01-2018/12,80万元,已结题、主持。

3、国家自然科学基金青年基金项目,11102074,温度-速度梯度耦合纳米通道流体边界滑移研究,2012/01-2014/12,26万元,已结题、主持。

4、中国博士后科学基金特别资助项目,2013T60503,水-碳纳米管电控可调速纳米传动流体器件研究,2013/03-2014/12,15万元,已结题、主持。

5、江苏省自然科学基金面上项目,BK2011463,多场耦合作用流体在纳米通道中的流动特性研究,2011/10-2014/12,10万元,已结题、主持。

6、工业装备结构分析国家重点实验室开放课题,8万元,正在承担、主持。

7、中国博士后科学基金面上项目,2011M501169,热-力-电耦合平行壁纳米通道流体边界滑移研究,2011/10-2013/10,3万元,已结题、主持。

主要讲授课程

1. 本科生课程:《单片机原理及应用》、《控制工程基础

2. 研究生课程:《分子模拟技术及应用》

工作成果及奖励

江苏省“青蓝工程”骨干教师培养对象,2016年

江苏省科学技术奖三等奖(3/5),2015

“澳门皇冠金沙亚洲新长征突击手”荣誉称号,2015年

第五届“澳门皇冠金沙亚洲青年文明号”(微纳米中心团队),2015年

澳门皇冠金沙亚洲第七届教师教学竞赛高级组三等奖,2014年

澳门皇冠金沙亚洲机械工程学院2014年教学大赛一等奖

澳门皇冠金沙亚洲第六届教师教学竞赛新教师组三等奖,2012年

澳门皇冠金沙亚洲机械工程学院2012年教学大赛一等奖

辽宁省优秀博士学位论文,2012年

大连理工大学优秀博士学位论文,2012年

第六届中国青少年科技创新奖,2009年

引导硕/博士生研究方向

1、微机电系统及微纳器件设计

2、低维碳材料-流体系统微纳尺度驱动与控制

3、软体机器人致动与控制

联系方式

Email:zhangzq@mail.ujs.edu.cn  Tel: 0511-88791548

通讯地址:江苏镇江学府路301号,澳门皇冠金沙亚洲澳门皇冠金沙网站 212013

出版论著和论文

撰写英文专著1部(章节),发表学术论文60余篇,其中被SCI收录50余篇,SCI他引200余次,部分论文发表在Applied Physics Letters(IF 3.0以上)、Physical Review B(IF 3.0以上)、Microfluidics and Nanofluidics(IF 3.0以上)、Scientific Reports(IF 5.0以上)、Nanotechnology(IF3.0以上)、Physical Review E(IF 2.0以上)、Journal of Applied Physics(IF 2.0以上)、Nanoscale Research Letters(IF 2.0以上)等国际重要学术期刊上。

英文专著

Zhang Z.Q.*, Zhang H.W., Ding J.N., Cheng G.G., Ling Z.Y., Nanotechnology vol.3: Properties of Materials. Chapter 7, Flow Properties and Boundary Slip of Fluids in Nanochannels, STUDIUM PRESS LLC, 2013.

代表性论文

1. Zhang Z.Q., Zhang F.J., Liu Z., Cheng G.G., Wang X.D., Ding J.N.*, Molecular dynamics study on the reverse osmosis using multilayer porous graphene membranes. Nanomaterials, 8: 805 (2018).

2. Zhang Z.Q., Yuan L.S., Liu Z. Ye H.F., Cheng G.G., Ding J.N.*, Flow behaviors of nanofluids in parallel-plate nanochannels influenced by the dynamics of nanoparticles. Computational Materials Science, 145: 184-190 (2018).

3. Zhang Z.Q.*, Jia Y.X., Guo X.F., Ge D.H., Cheng G.G., Ding J.N., Characteristics of interaction between single-layer graphene on copper substrate and groove. Acta Physica Sinica, 67(3): 033101 (2018).

4. Zhang Z.Q., Li Chong, Liu H.L., Ge D.H., Cheng G.G., Ding J.N., Molecular dynamics study on permeability of water in graphene-carbon nanotube hybrid structure. Acta Physica Sinica, 67(5): 056102 (2018).

5. Liu Z., Zhang Z.Q.*, Fullerene-water nanofluid confined in graphene nanochannel. AIP Advances, 7, 125208 (2017)

6. Zhang Z.Q., Zhong J., Liu Z., Cheng G.G., Ding J.N., Service performance of nanopins based on branched carbon nanotubes. Micro & Nano Letters, 12(12): 934-939 (2017).

7. Zhang Z.Q., Zhong J., Ye H.F., Cheng G.G., Ding J.N., Structural optimization and shear performances of the nanopin based on Y-junction carbon nanotubes. Physica B: Condensed Matter, 504, 13-22 (2017).

8. Zhang Z.Q., Zhong J., Ye H.F., Liu Z., Cheng G.G., Ding J.N., A novel nanopin model based on a Y-junction carbon nanotube. Journal of Applied Physics, 120, 064301 (2016).

9. Zhang Z.Q., Zheng Y.G., Ye H.F., Cheng G.G., Ding J.N., Molten and solidification properties of copper nanoparticles. Surface and Interface Analysis, 48, 1423-1428 (2016).

10. Ye H.F., Zheng Y.G., Zhang Z.Q., Zhang H.W., Chen Z., Controllable deformation of salt water-filled carbon nanotubes using an electric field with application to molecular sieving. Nanotechnology, 27, 315702 (2016).

11. Zhang Z.Q., Dong X., Ye H.F., Cheng G.G., Ding J.N., Ling Z.Y., Wetting and motion behaviors of water droplet on graphene under thermal-electric coupling field. Journal of Applied Physics, 117(7): 074304 (2015).

12. Ye H.F., Zheng Y.G., Zhang Z.Q., Chen Z., Zhang H.W., Water filling and electric field-induced enhancement in the mechanical property of carbon nanotubes. Scientific Reports, 5: 17537 (2015).

13. Cheng G.G., Zhang Z.Q., Zhang W., Shi Y.Y., Ding J.N., Ling Z.Y., Nanoindentation in a wetting environment: the coupling effect of liquid and surface roughness on mechanical calibration. J. Phys. D: Appl. Phys., 48 015302 (2015).

14. Ye H.F., Li R., Zheng Y.G., Zhang Z.Q., Zong Z. Zhang H.W., Torsional failure of the water-filled carbon nanotubes. International Journal of Damage Mechanics, 0(0): 1-11, 2015.

15. Zhang Z.Q., Dong X., Ye H.F., Cheng G.G., Ding J.N., Ling Z.Y., Rapid motion of liquid mercury column in carbon nanotubes driven by temperature gradient. Journal of Applied Physics, 116(7): 074307 (2014).

16. Ye H.F.,Zhang Z.Q., Zhang H.W., Chen Z., Zong Z., Zheng Y.G., The tunable mechanical property of water-filled carbon nanotubes under an electric field, J. Phys. D: Appl. Phys. 47: 125302 (2014).

17. Kan B. Ding J.N., Zhang Z.Q., Zhu Y.Y., Cheng G.G., Molecular dynamics simulations for rotational nanobearing formed by double walled carbon nanotube. Journal of Computational and Theoretical Nanoscience, 11: 324-330 (2014).

18. Zhang Z.Q., Ye H.F., Cheng G.G., Zheng Y.G., Ding J.N., Ling Z.Y., Loading, charging and thermal effects on the mechanism of water-cabon nanotube transmission, International Journal of Computational Materials Science and Engineering, 2(3-4): 1350017 (2013).

19. Cheng G.G., Zhang Z.Q., Ding J.N., Ling Z.Y., Chen Y.B., Mechanical and electrical properties of GeSb2Te4film with external voltage applied. Applied Surface Science, 285P, 532– 537 (2013).

20. Zhang Z.Q., Ye H.F., Cheng G.G., Zheng Y.G., Ding J.N., Ling Z.Y., Boundary slip and interfacial friction properties of confined water flow on graphene under electrowetting, New Carbon Materials, 28(6): 475-479 (2013).

21. Kan B., Ding J.N., Zhang Y.B., Zhang Z.Q., Cheng G.G., A nanoscale transmission system with novel-structured carbon nanotubes. Journal of Applied Physics, 113, 014310 (2013)

22. Zhang Z.Q., Ye H.F., Liu Z., Ding J.N., et al. Carbon nanotube-based charge-controlled speed-regulating nanoclutch. Journal of Applied Physics, 111, 114304 (2012).

23. Zhang Z.Q., Cheng G.G., Liu Z., Xue Y., Ding J.N., Ling Z.Y. Analysis of interfacial mechanical properties of carbon nanotube–polymer composite. Acta Phys. Sin., 61, 126202 (2012).

24. Zhang Z.Q., Zhang H.W., Wang L., Ding J.N., et al. Reassessing the molecular sieving by kinked carbon nanotubes. Modelling and Simulation in Materials Science and Engineering, 19, 085009 (2011).

25. Zhang H.W.,Zhang Z.Q., Ye H.F., Molecular dynamics-based prediction of boundary slip of fluids in nanochannels. Microfluid Nanofluid, 12, 107 (2012).

26. Zhang H.W.,Zhang Z.Q., Zheng Y.G., Ye H.F., Corrected second-order slip boundary condition for fluid flows in nanochannels. Physical Review E, 81, 066303 (2010).

27. Zhang Z.Q., Zhang H.W., and Ye H.F., Pressure-driven flow in parallel-plate nanochannels. Applied Physics Letters, 95, 154101 (2009).

28. Zhang Z.Q., Zhang H.W., Zheng Y.G., Wang L., and Wang J.B., Gas separation by kinked single-walled carbon nanotubes: Molecular dynamics simulations. Physical Review B, 78, 035439 (2008).

29. Zhang H.W., Zhang Z.Q., Wang L., Zheng Y.G., Wang J.B., and Wang Z.K., Pressure control model for transport of liquid mercury in carbon nanotubes. Applied Physics Letters 90, 144105 (2007).

师资队伍

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