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LIU Ruiping

Time:Mar 3, 2019 11:44 PM   Author:   Click:

Chinese Name

Liu Ruiping


Professional   Title

Associate Professor



Master   Supervisor


Doctoral   Supervisor








Research Orientation:

1. The crystal dislocations

2. Metastable Functional Materials


Lectured CoursesCollege Physics(Bachelor)Method of Mathematical Physics(Bachelor)


Personal experience:


Education Experience:

September 2001June 2005, Hubei University for Nationalities, Physics, Undergraduate /Batcheler

September 2005June 2010, Chongqing University, Condensed Matter of Physics, Postgraduate / Master and Doctor of Education


Work Experience:

July 2010Present, Taiyuan University of Technology, College of Physics and Optoelectronics,

March 2017-March 2018, San Jose State University(USA), Engineering College, Visiting scholar.



Research Project

1. Liu Ruiping, The theoretical investigations on the temperature effects to the movement mechanisms of the screw dislocations in bcc metals(Project number:51401142), the National Natural Science Foundation of China, 2015.01-2017.12.


Scientific Achievements


1.        XueWen Zhu, Li-Chun Xu, Rui-Ping Liu*, Zhi Yang, Xiu-Yan Li. N-F co-doped in titaninum dioxide nanotube

2.        of the anatase (101) surface: a first-principles study, Acta Physica Sinica, 64(14),147103, 2015.

3.        Yuan-Jun Guo, Rui-Ping Liu*, Zhi Yang, Xiu-Yan Li. Mechanical properties of transition metals doped Mo: a first- principals study, Acta Physica Sinica, 63(8), 087102, 2014.

4.        Rui-Ping Liu, Sheng-Qiang Lu, Rui Wang , The dislocation equations of the simple cubic crystal in the isotropic approximation - a solvable model, Acta Mechanica Solida Sinica, 25(2), 211-220, 2012

5.        Rui-Ping Liu, Sheng-Qiang Lu, Rui Wang, Fe <100>{010}刃位错芯结构的各向异性修正,Journal of Atomic and Molecular Physics, 29(1), 113, 2012.

6.        Shao-Ding Liu, Zhi Yang, Rui-Ping Liu, Xiu-Yan Li. Multiple Fano resonances in plasmonic heptamer clusters composed of split nanorings, ACS Nano, 6(7), 6260, 2012.

7.        Shao-Ding Liu, Zhi Yang, Rui-Ping Liu, Xiu-Yan Li. Radiative damping suppressing and refractive index sensing with elliptical split nanorings, Applied Physics Letters, 100(20), 203119, 2012.

8.        Zhi-Dong. Han, Xiu-Yan Li, Zhi Yang, Rui-Ping Liu, Shao-Ding Liu, Ying Zhang. Structures and magnetic properties of Fe and Ni monoatomic chains encapsulated by an Au nanotube, Chinese Physics B, 21(11), 118102, 2012.

9.        Shao-Ding Liu, Zhi Yang, Rui-Ping Liu, Xiu-Yan Li. Plasmonic-induced optical transparency in the near-infrared and visible range with double split nanoring cavity, Optics Express, 19 (16), 15363, 2011.

10.     Shao-Ding Liu, Zhi Yang, Rui-Ping Liu, Xiu-Yan Li. High Sensitivity Localized Surface Plasmon Resonance Sensing Using a Double Split NanoRing Cavity, The Journal of Physical Chemistry C, 115 (50), 24469, 2011.

11.     Rui-Ping Liu, Shao-Feng Wang, Rui Wang, Jian Jiao. The theoretical investigations of the core structure and Peierls stress of the 1/2<111>{110} edge dislocation in Mo, Materials Science and Engineering A, 527, 4887, 2010.

12.     Xiao-Zhi Wu, Shao-Feng Wang, Rui-Ping Liu. Peierls stress for <110>{001} mixed dislocation in SrTiO3 within framework of constrained path approximation, Acta Mechanica Solida Sinica, 26, 425, 2010.

13.     Shao-Feng Wang, Hui-Li Zhang, Xiao-Zhi Wu, Rui-Ping Liu. Theoretical calculation of the dislocation width and Peierls barrier and stress for semiconductor silicon, Journal of Physics: Condensed Matter, 22, 055801, 2010.

14.     Rui-Ping Liu, Shao-Feng Wang, Xiao-Zhi Wu. The Peierls stress of the moving 1 2111{110}screw dislocation in Ta, Journal of Physics: Condensed Matter, 21, 345401, 2009.

15.     Xiao-Zhi Wu, Shao-Feng Wang, Rui-Ping Liu. On the core structure and mobility of the h100i{010} and h100i{011} dislocations in B2 structure YAg and YCu, Chinese Physics B, 7, 2905, 2009.

16.     Shao-Feng Wang*, Rui-Ping Liu, Xiao-Zhi Wu. The discrete correction of the core structure for the<100> {010} edge dislocation in bcc Fe, Journal of Physics: Condensed Matter, 20, 485207, 2008.


Honors and awards

2018, The Sanjin Talent of Shanxi