Dr. WANG Menghao (Postdoc)

2020-05-25

  He received B.S. degree from Henan University of Science and Technology in 2009, completed Ph.D. in Southwest Jiaotong University , 2019, and joined Yu Peiyuan's group in 2020 

 

  1. Wang Menghao; Wang Qun; Wang Kefeng, Lu Xiong. Functionalized TiO2Surfaces Facilitate Selective Receptor-Recognition and Modulate Biological Function of Bone Morphogenetic Protein-2. The Journal of Physical Chemistry C 2018; 122,51: 29319-29329
  2. Wang Menghao; Wang Qun; Lu Xiong; Wang Ke-feng; Fang Liming; Ren Fuzeng; Lu Guoming, Zhang Hongping. Interaction Behaviors of Fibrinopeptide-a and Graphene with Different Functional Groups: A Molecular Dynamics Simulation Approach. The Journal of Physical Chemistry B2017;121:7907-15.
  3. Wang Menghao; Guo Ya-nan; Wang Qun; Huang Jing-jing; Lu Xiong; Wang Ke-feng; Zhang Hong-ping, Leng Yang. Density Functional Theory Study of Interactions between Glycine and TiO2/Graphene Nanocomposites. Phys. Lett. 2014;599:86-91.
  4. Wang Menghao; Wang Qun; Lu Xiong; Wang Kefeng, Ren Fuzeng. Computer Simulation of Ions Doped Hydroxyapatite: A Brief Review. Journal of Wuhan University of Technology-Mater. Sci. Ed.2017;32:978-87.
  5. Wang, Kefeng; Wang Menghao; Wang QiGuang; Lu Xiong, Zhang XingDong. Computer Simulation of Proteins Adsorption on Hydroxyapatite Surfaces with Calcium Phosphate Ions. Eur. Ceram. Soc. 2017;37:2509-20.
  6. Han, Lu; Wang Menghao; Li Pengfei; Gan Donglin; Yan Liwei; Xu Jielong; Wang Kefeng; Fang Liming; Chan Chun Wai, Zhang Hongping. Mussel-Inspired Tissue-Adhesive Hydrogel Based on the Polydopamine–Chondroitin Sulfate Complex for Growth-Factor-Free Cartilage Regeneration. ACS Appl. Mat. Interfaces 2018;10:28015-26.
  7. Han, Lu; Wang Menghao; Sun Honglong; Li Pengfei; Wang Kefeng; Ren Fuzeng, Lu Xiong. Porous Titanium Scaffolds with Self‐Assembled Micro/Nano‐Hierarchical Structure for Dual Functions of Bone Regeneration and Anti‐Infection. Biomed. Mater. Res. A2017;105:3482-92.
  8. Wang, Qun; Wang Menghao; Li Pengfei; Wang Kefeng; Fang Liming; Ren Fuzeng; Lu Guoming, Lu Xiong. The Interaction of Chitosan and Bmp‐2 Tuned by Deacetylation Degree and Ph Value. Biomed. Mater. Res. A2018.
  9. Wang, Qun; Wang Menghao; Lu Xiong; Wang Kefeng; Fang Liming; Ren Fuzeng, Lu Guoming. Effects of Atomic-Level Nano-Structured Hydroxyapatite on Adsorption of Bone Morphogenetic Protein-7 and Its Derived Peptide by Computer Simulation. Scientific Reports2017;7:15152.
  10. Wang, Qun; Wang Menghao; Lu Xiong; Wang Ke-feng, Fang Li-ming. Combined Effects of Dopants and Electric Field on Interactions of Dopamine with Graphene. Phys. Lett. 2017;685:385-94.
  11. Wang, Qun; Wang Menghao; Wang Ke-feng; Liu Yaling; Zhang Hong-ping; Lu Xiong, Zhang Xing-dong. Computer Simulation of Biomolecule–Biomaterial Interactions at Surfaces and Interfaces. Mater. 2015;10:032001.
  12. Wang, Qun; Wang Menghao; Wang Ke-feng; Zhao Yong-chi; Wang Wei-li, Zhang Li-ping. Interactions of Anionic and Neutral Serine with Pure and Metal-Doped Graphene Studied by Density Functional Theory. J. Chem. Phys. 2016;29:437-44.
  13. Han, Lu; Yan Liwei; Wang Menghao; Wang Kefeng; Fang Liming; Zhou Jie; Fang Ju; Ren Fuzeng, Lu Xiong. Transparent, Adhesive, and Conductive Hydrogel for Soft Bioelectronics Based on Light-Transmitting Polydopamine-Doped Polypyrrole Nanofibrils. Mater. 2018;30:5561-72.
  14. Han, Lu; Liu Kezhi;Wang Menghao; Wang Kefeng; Fang Liming; Chen Haiting; Zhou Jie, Lu Xiong. Mussel‐Inspired Adhesive and Conductive Hydrogel with Long‐Lasting Moisture and Extreme Temperature Tolerance. Funct. Mater. 2018;28:1704195.
  15. Han, Lu; Lu Xiong; Wang Menghao; Gan Donglin; Deng Weili; Wang Kefeng; Fang Liming; Liu Kezhi; Chan Chun Wai, Tang Youhong. A Mussel‐Inspired Conductive, Self‐Adhesive, and Self‐Healable Tough Hydrogel as Cell Stimulators and Implantable Bioelectronics. Small2017;13:1601916.
  16. Gan, Donglin; Han Lu; Wang Menghao; Xing Wensi; Xu Tong; Zhang Hongping; Wang Kefeng; Fang Liming, Lu Xiong. Conductive and Tough Hydrogels Based on Biopolymer Molecular Templates for Controlling in Situ Formation of Polypyrrole Nanorods. ACS Appl. Mat. Interfaces 2018;10:36218-28.