杜高辉
发布时间: 2014-03-05 浏览次数: 2087
 

 

基本资料

杜高辉,博士,校特聘教授,兼职博士生导师。2003年毕业于中国科学院物理研究所,获理学博士学位;2003 - 2007年期间先后在比利时安特卫普大学、美国亚利桑那州立大学、佛罗里达国际大学进行博士后研究;200712月受聘为浙江师范大学校特聘教授,任浙江省电镜与X光学会理事。在碳纳米管、氧化物纳米管/纳米线/纳米晶等新材料研究领域取得许多创新性研究成果;在国际SCI期刊发表学术论文70余篇,被他人引用2500多次;2008年荣获美国Thomson Reuters学术机构颁发的科学前沿-中国卓越研究奖2010年荣获国家自然科学二等奖,2011年入选教育部新世纪优秀人才支持计划,2013年获“第十七次全国电化学大会优秀论文奖”。

主讲课程

本科生课程:《纳米材料制备与分析》,《材料分析方法》

研究生课程:《材料显微结构分析》

学术兴趣及主要研究方向

纳米材料的制备与分析;锂电池材料;光催化材料;原位TEM

发表论文和著作

1.         Qingmei Su, Jian Xie, Jun Zhang, Yijun Zhong, Gaohui Du, and Bingshe Xu; In Situ Transmission Electron Microscopy Observation of Electrochemical Behavior of CoS2 in Lithium-Ion Battery; ACS Applied Materials & Interfaces; 2014, 6, 3016−3022

2.         Y. P. Zhu,J. Li,T. Y. Ma,Y. P. Liu, G. H. Du, Z. Y. Yuan;  Sonochemistry-assisted synthesis and optical properties of mesoporous ZnS nanomaterials;  J Mater Chem A;  2014 (2), 1093-1101

3.         D. Xie,Q. M. Su,J. Zhang,G. H. Du,B. S. Xu;  Graphite oxide-assisted sonochemical preparation of alpha-Bi2O3 nanosheets and their high-efficiency visible light photocatalytic activity;  J Mater Sci;  2014 (49), 218-224;

4.         Q. M. Su,D. Xie,J. Zhang,G. H. Du,B. S. Xu;  In Situ Transmission Electron Microscopy Observation of the Conversion Mechanism of Fe2O3/Graphene Anode during Lithiation- Delithiation Processes;  Acs Nano;  2013 (7), 9115-9121

5.         Q. M. Su,G. H. Du,J. Zhang,Y. J. Zhong,B. S. Xu,Y. H. Yang,S. Neupane,K. Kadel,W. Z. Li;  In Situ Transmission Electron Microscopy Investigation of the Electrochemical Lithiation- Delithiation of Individual Co9S8/Co-Filled Carbon Nanotubes;  Acs Nano;  2013 (7), 11379-11387

6.         J. Zhang,J. P. Tu,G. H. Du,Z. M. Dong,Y. S. Wu,L. Chang,D. Xie,G. F. Cai,X. L. Wang;  Ultra-thin WO3 nanorod embedded polyaniline composite thin film: Synthesis and electrochromic characteristics;  Sol Energ Mat Sol C;  2013 (114), 31-37

7.         J. Zhang,J. P. Tu,G. H. Du,Z. M. Dong,Q. M. Su,D. Xie,X. L. Wang;  Pt supported self-assembled nest-like-porous WO3 hierarchical microspheres as electrocatalyst for methanol oxidation;  Electrochim Acta;  2013 (88), 107-111

8.         J. Zhang,J. P. Tu,G. F. Cai,G. H. Du,X. L. Wang,P. C. Liu;  Enhanced electrochromic performance of highly ordered, macroporous WO3 arrays electrodeposited using polystyrene colloidal crystals as template;  Electrochim Acta;  2013 (99), 1-8

9.         W. W. Yuan,J. Zhang,D. Xie,Z. M. Dong,Q. M. Su,G. H. Du;  Porous CoO/C polyhedra as anode material for Li-ion batteries;  Electrochim Acta;  2013 (108), 506-511

10.     W. W. Yuan,D. Xie,Z. M. Dong,Q. M. Su,J. Zhang, G. H. Du,B. S. Xu;  Preparation of porous Co3O4 polyhedral architectures and its application as anode material in lithium-ion battery;  Mater Lett;  2013 (97), 129-132

11.     J. Ye,J. Zhang,F. X. Wang,Q. M. Su,G. H. Du;  One-pot synthesis of Fe2O3/graphene and its lithium-storage performance;  Electrochim Acta;  2013 (113), 212-217

12.     F. M. Ye, Q. K. Jiang, G. H. Du, Y. J. Zhong,Q. P. Cao,X. D. Wang, J. Z. Jiang;  A heterostructured Ag@In2S3 composite with enhanced lithium storage capacity;  J Mater Chem A;  2013 (1), 5208-5211

13.     D. Xie, W. W. Yuan,Z. M. Dong,Q. M. Su,J. Zhang,G. H. Du;  Facile synthesis of porous NiO hollow microspheres and its electrochemical lithium-storage performance;  Electrochim Acta;  2013 (92), 87-92

14.     D. Xie, Q. M. Su, W. W. Yuan, Z. M. Dong, J. Zhang, G. H. Du;  Synthesis of Porous NiO-Wrapped Graphene Nanosheets and Their Improved Lithium Storage Properties;  J Phys Chem C; 2013 (117), 24121-24128

15.     D. Xie, Q. M. Su,Z. M. Dong,J. Zhang,G. H. Du;  L-cysteine-assisted preparation of porous NiO hollow microspheres with enhanced performance for lithium storage;  Crystengcomm;  2013 (15), 8314-8319

16.     F. X. Wang, A. Kalam,L. Chang,D. Xie,A. S. Al-Shihri,G. H. Du;  Rapid microwave-assisted synthesis of ball-in-ball CuO microspheres and its application as a H2O2 sensor;  Mater Lett;  2013 (92), 96-99

17.     Q. M. Su,Z. M. Dong,J. Zhang,G. H. Du,B. S. Xu;  Visualizing the electrochemical reaction of ZnO nanoparticles with lithium by in situ TEM: two reaction modes are revealed;  Nanotechnology;  2013 (24), 0957-4484

18.     Q. M. Su, L. Chang,J. Zhang,G. H. Du,B. S. Xu;  In Situ TEM Observation of the Electrochemical Process of Individual CeO2/Graphene Anode for Lithium Ion Battery;  J Phys Chem C;  2013 (117), 4292-4298

19.     Z. Q. Li, C. L. Li,Y. Y. Mei, L. M. Wang, G. H. Du, Y. J. Xiong;  Synthesis of rhombic hierarchical YF3 nanocrystals and their use as upconversion photocatalysts after TiO2 coating;  Nanoscale; 2013 (5), 3030-3036

20.     C. L. Li,Y. Y. Mei,J. J. Xie,W. Dai,G. H. Du,Z. Q. Li;  Controlled synthesis of YF3 nanocrystals with multiple morphologies in ethylene glycol; J Alloy Compd; 2013 (560), 10-14

21.     Z. M. Dong,J. Zhang,X. Y. Zhao,J. P. Tu,Q. M. Su,G. H. Du;  Sulfur@hollow polypyrrole sphere nanocomposites for rechargeable Li-S batteries;  Rsc Adv;  2013 (3), 24914-24917

22.     X. N. Chi,L. Chang,D. Xie,J. Zhang,G. H. Du;  Hydrothermal preparation of Co3O4/graphene composite as anode material for lithium-ion batteries;  Mater Lett;  2013 (106), 178-181

23.     L. Chang,F. X. Wang,D. Xie,J. Zhang,G. H. Du;  Graphite oxide-mediated synthesis of porous CeO2 quadrangular prisms and their high-efficiency adsorptive performance;  Mater Res Bull;  2013 (48), 4362-4367