程传伟 教授博导

邮箱:cwcheng@tongji.edu.cn

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个人简历
教育经历:

2000.09—2004.06  南京航空航天大学,     理学学士;

2004.09—2009.04  南京航空航天大学,     工学博士;
工作经历:

2009.01-2011.06   新加坡南洋理工大学,物理与应用物理系,博士后;

2011.06-2017.12,bet356体育在线官方网站,物理与科学工程学院,副教授,博士生导师;

2017.12-至今,     bet356体育在线官方网站,bet356体育在线官方网站,教授,   博士生导师

教学情况
先后承担《普通物理》、《普通物理实验》、《微纳材料与器件物理》等教学工作
研究方向

研究方向:先进纳米材料;能量存储与转换器件(光/电催化,燃料电池, 锂/钠电池等);原子层沉积技术及应用

项目
主持国家自然科学基金面上,上海市科委自然基金探索项目等多项科研项目。
奖励荣誉
获奖:2015年获黑龙江省自然科学二等奖(排名第二)
荣誉:上海市浦江人才计划


学术兼职
中国物理学会会员,中国化学学会会员,Adv. Mater, J.Am.Chem.Soc., Adv.Func.Mater., Small,Nanoscale, J. Mater. Chem.A等几十种杂志独立审稿人。
主要论著

代表性论著。

1.Pan. Q., Li. A. S., Zhang. Y. L., Yang. Y. P., Cheng. C. W.*.  Rational design of three-dimensional hierarchical ternary SnO2/TiO2/BiVO4 arrays photoanode towards efficient photoelectrochemical performance. Adv. Sci,2020,6, 1902235.

2. Pan. Q., Zhang. H. F., Yang. Y. P., Cheng. W. W.* Three-dimensional brochosomes like TiO2/WO3/BiVO4 arrays as photoanode for photoelectrochemical hydrogen production. Small, 2019, 1900924.

3. Guan. C.*, Liu. X. M, Ren. W. N., Li. X., Cheng. C. W.*, Wang. J.*, Rational design of metal organic framework derived hollow NiCo2O4 arrays for flexible supercapacitor and electrocatalysis. Adv. Energy. Mater., 2017, 10, 1602391.
4. Zhang. H. F., Zhou. W. W, Yang. Y. P, Cheng. C. W.* Three dimensional WO3/BiVO4/cobalt phosphate composites inverse opal photoanode for efficient photoelectrochemical water splitting. Small, 2017, 13,1603840.
5. Guan. C.*, Sumboja. A., Wu. H. J., Ren. W. N, Zhang. X. M., Zhang. H., Liu. Z. L.*, Cheng. C. W.*, Pennycook. S. J., Wang. J.* Hollow Co3O4 Nanosphere Embedded in Carbon Arrays for Stable and Flexible Solid-State Zinc-Air Batteries. Adv. Mater., 2017, 29, 1704117.
6. Ren. W. N., Zhang. H. F., Guan. C.*, Cheng. C. W.* Ultrathin MoS2 nanosheets@metal organic framework-derived N-doped carbon nanowall arrays as sodium ion batteries anode with superior cycling life and rate capability. Adv. Funct. Mater., 2017, 27, 1702116.
7. Zhang. H. F., Cheng. C. W.* Three-dimensional FTO/TiO2/BiVO4 composite inverse opals photoanode with excellent photoelectrochemical performance. ACS Energy Lett., 2017, 2, 813-821.
8. Cheng. C. W*., Ren. W. N., Zhang. H. F. 3D TiO2/SnO2 hierarchically branched nanowires on transparent FTO substrate as photoanode for efficient water splitting. Nano Energy 2014, 5,132-138.
9. Kong. D. Z., Luo. J. S., Wang. Y. L., Ren. W. N., Yu. T., Luo. Y. S., Yang. Y. P., Cheng. C. W.* Three-dimensional Co3O4@MnO2 hierarchical nanoneedle arrays: Morphology control and electrochemical energy storage. Adv. Func. Mater., 2014, 24, 3815–3826.
10. Cheng. C. W.,* Zhang. H. F., Ren. W. N., Dong. W. J., Sun. Y.,Three dimensional urchin-like ordered hollow TiO2/ZnO nanorods structure as efficient photoelectrochemical anode.Nano Energy 2013, 2, 79-86.
11. Cheng.C. W., Fan. H. J., Branched nanowires: synthesis and energy applications. Nano Today 2012, 7, 327-343.(Invited Review)
12. Cheng. C. W., Siva. K. K., Liu. L. J. et al.Quantum dots sensitizedTiO2 inverse opal for photoelectrochemical hydrogen generation. Small 2012,8, 37-42.(卷首页亮点文章)
13. Cheng. C. W., Liu. B., Yang, H. Y.,et al.Hierarchical assembly of ZnO nanostructures on SnO2 backbone nanowires:low-temperature hydrothermal preparation and optical properties. ACS Nano 2009,3, 3069-3076.(封面)