杨明媚(10博后)

 

杨明媚

77779193永利集团2010年博士后
2010年7月-2012年8月
去向:77779193永利集团物理化学研究所办公室主任
研究方向:石墨烯的化学修饰
Email:yangmm-cnc_at_pku.edu.cn
English Version

 

 

主持科研项目:

 

1. 中国博士后科学基金面上项目,"化学修饰石墨烯的第一性原理研究"(课题负责人,2011-2012年)

 

发表论文:

1. Xiong Zhou, Fabian Bebensee, Mingmei Yang, Regine Bebensee, Fang Cheng, Yang He, Qian Shen, Jian Shang, Zhirong Liu, Flemming Besenbacher, Trolle Linderoth, and Kai Wu. Steering surface reaction at specific sites with self-assembly strategy. ACS Nano 11 (9), 9397-9404 (2017).

2. 周琳、张黎明、廖磊、杨明媚、谢芹、彭海琳、刘志荣、刘忠范。石墨烯的光化学修饰方法。化学学报 72 (3), 289-300 (2014)。

3. Mingmei Yang, Ruiqi Zhao, Jinying Wang, Liming Zhang, Qin Xie, Zhongfan Liu, and Zhirong Liu. Bandgap opening in Janus-type mosaic graphene. J. Appl. Phys. 113 (8), 084313/1-6 (2013).

4. Jinying Wang, Ruiqi Zhao, Mingmei Yang, Zhongfan Liu, and Zhirong Liu. Inverse relationship between carrier mobility and band gap in graphene. J. Chem. Phys. 138, 084701 (2013). (封面文章)

5. Lin Zhou, Lushan Zhou, Mingmei Yang, Di Wu, Lei Liao, Kai Yan, Qin Xie, Zhirong Liu, Hailin Peng, and Zhongfan Liu. Free radical reactions in two dimensions: a case study on photochlorination of graphene. Small 9 (8), 1388-1396 (2013).

6. Liming Zhang, Lin Zhou, Mingmei Yang, Zhirong Liu, Qin Xie, Hailin Peng, and Zhongfan Liu. Photo-induced free radical modification of graphene. Small 9 (8), 1134-1143 (2013).

7. Liming Zhang, Jingwen Yu, Mingmei Yang, Qin Xie, Hailin Peng, and Zhongfan Liu. Janus graphene from asymmetric two-dimensional chemistry. Nat. Commun. 4, 1443/1-7 (2013).

8. Ruiqi Zhao, Jinying Wang, Mingmei Yang, Zhongfan Liu, and Zhirong Liu. Graphene quantum dots embedded in a hexagonal BN sheet: identical influences of zigzag/armchair edges. Phys. Chem. Chem. Phys. 15 (3), 803-806 (2013).

9. Ruiqi Zhao, Jinying Wang, Mingmei Yang, Zhongfan Liu, and Zhirong Liu. BN-embedded graphene with a ubiquitous gap opening. J. Phys. Chem. C 116 (39), 21098-21103 (2012).

10. Mingmei Yang, Lin Zhou, Jinying Wang, Zhongfan Liu, and Zhirong Liu. Evolutionary chlorination of graphene: from charge-transfer complex to covalent bonding and non-bonding. J. Phys. Chem. C 116 (1), 844-850 (2012).