Ting Cheng (grad16)

Ting Cheng

Physical Chemistry, Peking University
Grad. 2016-2021
Research Area: low-dimensional materials with Dirac cones
Email: chengting-cnc_at_pku.edu.cn

 

Experiences:

1994.11, born in Wuhan, Hubei, China.

2012.9-2016.6, B. Sc. in Physics, Central China Normal University.

2016.9-2021.7, Ph.D., Academy for Advanced Interdisciplinary Studies, Peking University;

2018.1-2018.2, the University of Tokyo, international exchange student.

2019.1-2019.6, IBS CMCM (UNIST), Korea, international exchange student.

2021.8-2022.2:  research associate in Colledge of Chemistry and Molecular Engineering, Peking University.

2022.3-*: postdoctor, Rice University

 

Publications:

1. Yingqi Wang, Zijian Wang, Ting Cheng, and Zhirong Liu*. Carrier mobility of two-dimensional Dirac materials: the influence of optical phonon scattering. Phys. Chem. Chem. Phys. 25 (35), 23491-23501 (2023). (This article is part of the themed collection: 2023 PCCP HOT Articles)

2. Zijian Wang, Ting Cheng*, and Zhirong Liu*. Dirac cones, elastic properties, and carrier mobility of the FeB2 monolayer: the effects of symmetry. J. Phys. Chem. C 126 (1), 617-624 (2022).

3. Citian Wang, Ting Cheng, Zhirong Liu, Feng Liu*, and Huaqing Huang*. Structural amorphization-induced topological order. Phys. Rev. Lett. 128 (5), 056401 (2022).

4. Ting Cheng#, Luzhao Sun#, Zhirong Liu, Feng Ding*, Zhongfan Liu*. Roles of transition metal substrates in graphene chemical vapor deposition growth. Acta Phys. -Chim. Sin. 38 (1), 2012006 (2022).

5.  Zhibin Zhang#, Mingchao Ding#, Ting Cheng#, Ruixi Qiao, Mengze Zhao, Mingyan Luo, EnzeWang, Yufei Sun, Shuai Zhang, Xingguang Li, Zhihong Zhang, Hancheng Mao, Fang Liu, Ying Fu, Kehai Liu, Dingxin Zou, Can Liu, Muhong Wu, Chuanlin Fan, Qingshan Zhu, Xinqiang Wang, Peng Gao, Qunyang Li, Kai Liu, Yuanbo Zhang, Xuedong Bai, Dapeng Yu*, Feng Ding*, Enge Wang*, Kaihui Liu*. Continuous epitaxy of single-crystal graphite films by isothermal carbon diffusion through nickel. Nat. Nanotechnol. 17, 1258-1264 (2022).

6. Jinhuan Wang#, Xiaozhi Xu#, Ting Cheng#, Lehua Gu#, Ruixi Qiao, Zhihua Liang, Dongdong Ding, Hao Hong, Peiming Zheng, Zhibin Zhang, Zhihong Zhang, Shuai Zhang, Guoliang Cui, Chao Chang, Chen Huang, Jiajie Qi, Jing Liang, Can Liu, Yonggang Zuo, Guodong Xue, Xinjie Fang, Jinpeng Tian, Muhong Wu, Yi Guo, Zhixin Yao, Qingze Jiao, Lei Liu, Peng Gao, Qunyang Li, Rong Yang, Guangyu Zhang, Zhilie Tang, Dapeng Yu, Enge Wang, Jianming Lu, Yun Zhao*, Shiwei Wu*, Feng Ding*, and Kaihui Liu*. Dual-coupling-guided epitaxial growth of wafer-scale single-crystal WS2 monolayer on vicinal a-plane sapphire.  Nat. Nanotechnol. 17 (1), 33-38 (2022). (# Contributed Equally.)

7. Shichen Xu#, Ting Cheng#, Qingwei Yan#, Chao Shen, Yue Yu, Cheng-Te Lin*, Feng Ding*, JinZhang*. Chloroform-assisted rapid growth of vertical graphene array and its application in thermal interface materials. Adv. Sci. 9 (15), 202200737 (2022).

8. Ting Cheng#, Luzhao Sun#, Zhirong Liu, Feng Ding*, Zhongfan Liu*. Theoretical calculation boosting the chemical vapor deposition growth of graphene film. APL Mater.  9 (6), 060906/1-8 (2021).

9. Ting Cheng, Zhirong Liu, Feng Ding*, and Zhongfan Liu*. The mechanism of graphene vapor-solid growth on insulating substrates. ACS Nano 15 (4), 7399-7408 (2021).

10. Jia Guo, Rong Xiang, Ting Cheng, Shigeo Maruyama*, Yan Li*. One-dimensional van der Waals teterostructures: A perspective. ACS Nanosci. Au 2 (1), 3-11 (2021).

11. Ting Cheng, Zhongfan Liu, and Zhirong Liu*. High elastic moduli, controllable bandgap and extraordinary carrier mobility in single-layer diamond. J. Mater. Chem. C 8 (39), 13819-13826 (2020).

12. Qi Sun, Ting Cheng, Zhirong Liu, Limin Qi*. A cobalt silicate modified BiVO4 photoanode for efficient solar water oxidation. Appl. Catal. B: Environ. 277, 119189 (2020).

13. Zhaolong Chen#, Hongliang Chang#, Ting Cheng#, Tongbo Wei*, Ruoyu Wang, Shenyuan Yang, Zhipeng Dou, Bingyao Liu, Shishu Zhang, Yadian Xie, Zhiqiang Liu, Yanfeng Zhang, Jinmin Li, Feng Ding*, Peng Gao*, and Zhongfan Liu*. Direct growth of Nanopatterned graphene on sapphire and its application in light emitting diodes. Adv. Funct. Mater. 30 (31), 2001483 (2020). (# Contributed Equally.)

14. Jincan Zhang, Luzhao Sun, Kaicheng Jia, Xiaoting Liu, Ting Cheng, Hailin Peng*, Li Lin*, and Zhongfan Liu*. New growth frontier: superclean graphene. ACS Nano 14 (9), 10796-10803 (2020).

15. Yadian Xie#, Ting Cheng#, Can Liu#, Ke Chen, Yi Cheng, Zhaolong Chen, Lu Qiu, Guang Cui, Yue Yu, Lingzhi Cui, Mengtao Zhang, Jin Zhang, Feng Ding*, Kaihui Liu*, Zhongfan Liu*. Ultrafast catalyst-free graphene growth on glass assisted by local fluorine supply. ACS Nano 13 (9),10272-10278 (2019). (# Contributed Equally.)

16. Pengfei Yang, Zhepeng Zhang, Mengxing Sun, Feng Lin, Ting Cheng, Jianping Shi, Chunyu Xie, Yuping Shi, Shaolong Jiang, Yahuan Huan, Porun Liu, Feng Ding, Chunyang Xiong, Dan Xie*, and Yanfeng Zhang*. Thickness tunable wedding-cake-like MoS2 flakes for high-performance optoelectronics. ACS Nano 13 (3), 3649-3658 (2019).

17. Ting Cheng, Congwei Tan, Shuqing Zhang, Teng Tu, Hailin Peng*, and Zhirong Liu*. Raman spectra and strain effects in bismuth oxychalcogenides. J. Phys. Chem. C 122 (34), 19970-19980 (2018).

18. Shishu Zhang, Na Zhang, Yan Zhao, Ting Cheng, Xiaobo Li, Rui Feng, Hua Xu, Zhirong Liu, Jin Zhang* and Lianming Tong*. Spotting the differences in two-dimensional materials – the Raman scattering perspective. Chem. Soc. Rev. 47 (9), 3217-3240 (2018).

19. 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).

 

Meetings:

1. Ting Cheng, Zhongfan Liu, Zhirong Liu. Anisotropic carrier mobility of distorted Dirac cones: theory and application. 2017 International Forum on graphene in Shenzhen (Poster). Shenzhen, China. 2017.4.9-12.

2. Ting Cheng , Haifeng Lang, Zhenzhu Li, Zhongfan Liu, and Zhirong Liu. Mobility in tilted Dirac cones: theory and application. 17th Asian Chemical Congress. Oral. Melbourne, Australia, 2017.7.23-28.

3. Ting Cheng, Zhirong Liu. Anisotropic carrier mobility in two-dimensional materials with tilted Dirac cones: theory and application. Oral presentation. APS March meeting, LA, USA, 2018.3.5-9.

4. Ting Cheng, Zhirong Liu. Theoretical study on the anisotropic carrier mobility in two-dimensional materials with tilted Dirac cones. Poster. The 31th Chinese Chemical Society, HangZhou, China, 2018.5.5-8.

5. Ting Cheng, Zhirong Liu. Raman Spectra and Strain Effects in Bismuth Oxychalcogenides. 14th Sino-US Forum on Nanoscale Science and Technology. ChangSha, China, 2019.6.22-24.

6. Ting Cheng, Feng Ding, Kaihui Liu, Zhongfan Liu. Mechanism of local fluorine assisted graphene growth on insulated substrate. 2019Beijing Graphene Forum. Beijing, China, 2019.10.24-26.

7. Ting Cheng, Zhirong Liu, Feng Ding, Zhongfan Liu. The mechanism of graphene vapor-solid growth on insulating substrates. Poster, Graphene 2019, Rome, Italy, 2019. 6.25-28.

8. Ting Cheng, Zhirong Liu, Feng Ding, Zhongfan Liu. The mechanism of graphene vapor-solid growth on insulating substrates. Poster, The 32th Chinese Chemical Society (CCS) Congress, Zhuhai, China, 2021.4.19-22.

 

Awards:

1. Best Poster Award of 2017 International Forum on graphene in Shenzhen (2017).

2. May-Forth Scholarship, Peking University (2017).

3. Graduate student scholarship, Peking University (2018).

4. Triple-A Student, Peking University (2019).

5. Baosteel Scholarship (2019).

6. HORIBA Scholarship of Physical Chemistry (2019).

7. Triple-A Student, Peking University (2020).

8. National Scholarship for graduate students, Ministry of Eduation of the People's Republic of China (2020).

 

Hobbies:

Yoga, Zheng (a Chinese zither with 25 strings), Badminton

 (electron-phonon coupling in graphene)

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