Zhenzhu Li (grad12)

Zhenzhu Li

Physical Chemistry, Peking University
Grad. 2012-2017
Research area: electronic structure and carrier mobility of graphene and low-dimensional materials
Email: lizz-cnc_at_pku.edu.cn

 

Experiences:

2008.9-2012.7: B. Sc., College of Chemistry, Shandong University

2012.9-2017.7: Ph. D., Academy for Advanced Interdisciplinary Studies, Peking University

2016.9-12: Massachusetts Institute of Technology (MIT), international exchange student.

2017.7-????: postdoctor, Soochow University

 

Publications:

1. Zhenzhu Li, Zhongfan Liu and Zhirong Liu. Movement of Dirac points and band gaps in graphyne under rotating strain. Nano Res. 10 (6), 2005-2020 (2017).

2. Jing Liang#, Jin Zhang#, Zhenzhu Li#, Hao Hong#, Jinhuan Wang, Zhihong Zhang, Xu Zhou, Ruixi Qiao, Jiyu Xu, Peng Gao, Zhirong Liu, Zhongfan Liu, Zhipei Sun, Sheng Meng, Kaihui Liu, and Dapeng Yu. Monitoring local strain 3. vector in atomic-layered MoSe2 by second-Harmonic generation. Nano Lett. 17 (12), 7539-7543 (2017). (# Contributed Equally.)

4. Ting Cheng, Haifeng Lang, Zhenzhu Li, Zhongfan Liu, and Zhirong Liu. Anisotropic carrier mobility in two-dimensional materials with tilted Dirac cones: theory and application. Phys. Chem. Chem. Phys. 19 (35), 23942-23950 (2017).

5. Rong Liu, Xin Gao, Jingyuan Zhou, Hua Xu, Zhenzhu Li, Shuqing Zhang, Ziqian Xie, Jin Zhang, Zhongfan Liu. Chemical vapor deposition growth of linked carbon monolayers with acetylenic scaffoldings on silver foil. Adv. Mater. 29 (18), 1604665/1-7 (2017).

6. Jiaqiang Li, Ziqian Xie, Yan Xiong, Zhenzhu Li, Qunxing Huang, Shuqing Zhang, Jingyuan Zhou, Rong Liu, Xin Gao, Changguo Chen, Lianming Tong, Jin Zhang, Zhongfan Liu. Architecture of β-graphdiyne contained thin film using modified Glaser Hay coupling reaction for enhanced photocatalytic property of TiO2. Adv. Mater. 29 (19), 1700421/1-6 (2017).

7. Shuqing Zhang, Jinying Wang, Zhenzhu Li, Ruiqi Zhao, Lianming Tong, Zhongfan Liu, Jin Zhang and Zhirong Liu. Raman spectra and corresponding strain effects in graphyne and graphdiyne. J. Phys. Chem. C 120 (19), 10605-10613 (2016).

8. Zhenzhu Li, Jinying Wang, and Zhirong Liu. Intrinsic carrier mobility of Dirac cones: the limitations of deformation potential theory. J. Chem. Phys. 141 (14), 144107/1-9 (2014).

 

Meetings:

1. International Conference on Theoretical and High Performance Computational Chemistry 2013,Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Dalian,China,July 21-25, 2013.

2. The 9th Sino-US Symposium on Nanoscale Science and Technology, Tianjin, China, July 16-18, 2014.

3. Intrinsic Carrier Mobility of Dirac Cone Materials: the Limitations of Deformation Potential(Poster).The 29th Chinese Chemical Society, Beijing, China, 2014.8.4-7.

4. The Summer Seminar of Materials Simulation and Chemical High-performance Computing, Fuzhou, China, 2014.8.16-22.

5. APS March meeting. "Intrinsic carrier mobility of Dirac cones: limitations of the deformation potential theory", oral presentation(Q17). San Antonio, TX, United States, 2015.3.2-7.

6. APS March meeting, “A universal regulation for the angle resolved transport properties of Dirac cones and beyond”, Oral Presentation (L15). Baltimore, United States, 2016.3.14-18.

 

Awards:

1. HORIBA Scientific Scholarship, Representative of the award (2014).

2. Guanghua Scholarship (2015).

3. May-Forth Scholarship (2016).

 

 

 

 

 

 

 

Baidu
sogou