Zhou Xiaoyan
associate professor
Gender : Female
Alma Mater : 山西大学
Education Level : Graduate student graduate
Degree : Doctorate
Status : 在岗
School/Department : 物理与电子信息工程学院
Date of Employment : 2005-07-01
Discipline : physics
Business Address : 29-541
Email :
Hits :
First Author : Xiaofeng Yang
Affiliation of Author(s): 数理与信息工程学院
Date of Publication : 2013-01-01
Document Type : 期刊
Journal : Theoretical and Applied Mechanics Letters
Volume: Vol.3
Issue : No.3
Page Number : 032008
ISSN : 2095-0349
Translation or Not : no
Key Words : Nanotubes;Carbon;nanotubes;Monolayers;Surface;dynamics;Molecular;dynamics
Abstract : The dynamics of fluid flow through nanochannels is different from those in macroscopic systems. By using the molecular dynamics simulations, we investigate the influence of surface polarity of nanotube on the transport properties of the water fluid. The n
主讲课程
主讲本科课程:普通物理力学、大学物理B、大学物理B实验
学术兴趣及主要研究方向
近年来主要从事受限在纳米尺度下分子、离子的动力学行为的研究。主要包括纳米通道中水的定向输运行为;受限在纳米通道中的水的结构相变;一维气体水合物的性质;纳米通道离子电导率等。这些研究有助于理解分子及离子在受限环境中的行为,还为纳米流体器件的设计、海水淡化、污水处理、离子分离技术等提供了理论基础。
科研项目
1. 无阀纳米泵中流的翻转与共振现象的研究。国家自然科学基金青年基金,18万,2015-2018,主持
2. 非平衡扰动驱动纳米孔道中的水流动发电的机理研究,国家自然科学基金青年基金,18万,2010-2013,参与
3. 利用受限在石墨烯片层间流体流动发电的纳米能量转换器,国家自然科学基金面上项目 60万,2018.1-2022.12,参与
发表论文
1. Wei M, Xu C, Zhou X, et al. Transition from nanobubble-induced-blockage to enhancing water flux[J]. Journal of Molecular Liquids, 2023, 390: 122827.
2. Xu, C., Li, J., Wei, M., Zhou, X., & Lu, H. (2023). Structure and Stability of nitrogen hydrate in a single-walled carbon nanotube under external electric fields[J]. Chinese Physics B., 2023,32:076402.
3. Feng Q, Li J, Zhou X, et al. Effect of an electric field on dewetting transition of nitrogen-water system[J]. Chinese Physics B, 2022, 31(3): 036801.
4. Li J, Lu H, Zhou X. Electric field triggered release of gas from a quasi-one-dimensional hydrate in the carbon nanotube[J]. Nanoscale, 2020, 12(24): 12801-12808.
5. Li W, Zuo X, Zhou X, et al. Effect of aggregated gas molecules on dewetting transition of water between nanoscale hydrophobic plates[J]. The Journal of Chemical Physics, 2019, 150(10): 104702.
6. Zhou X, Zhu F. Calculating single-channel permeability and conductance from transition paths[J]. Journal of Chemical Information and Modeling, 2019, 59(2): 777-785.
7. Zhou X, Zhu F. Kinetic mechanism for water in vibrating carbon nanotubes[J]. Physical Review E, 2018, 98(3): 032410.
8. Zeng L, Zhou X, Huang X, et al. Phase transition-like behavior of the water monolayer close to the polarized surface of a nanotube[J]. Physical Chemistry Chemical Physics, 2018, 20(31): 20391-20397.
9. Zhou X, Wu F, Liu Y, et al. Current inversions induced by resonant coupling to surface waves in a nanosized water pump[J]. Physical Review E, 2015, 92(5): 053017.
10. Zhou X Y, Kou J L, Nie X C, et al. Nano watermill driven by revolving charge[J]. Chinese Physics B, 2015, 24(7): 074702.
11. Mei F, Zhou X, Kou J, et al. A transition between bistable ice when coupling electric field and nanoconfinement[J]. The Journal of Chemical Physics, 2015, 142(13): 134704.
12. Zhou X, Wu F, Kou J, et al. Vibrating-charge-driven water pump controlled by the deformation of the carbon nanotube[J]. The Journal of Physical Chemistry B, 2013, 117(39): 11681-11686.
13. Zhou X, Wang C, Wu F, et al. The ice-like water monolayer near the wall makes inner water shells diffuse faster inside a charged nanotube[J]. The Journal of chemical physics, 2013, 138(20).
14. Lu H, Nie X, Wu F, Zhou, X. Y, et al. Controllable transport of water through nanochannel by rachet-like mechanism[J]. The Journal of Chemical Physics, 2012, 136(17): 174511.
