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程传伟
2023-05-13 11:06
  • 程传伟
  • 程传伟 - 副教授 博导-同济大学-物理科学与工程学院-个人资料

近期热点

资料介绍

个人简历


教育背景 南京航空航空大学应用化学专业 理学学士 2004 南京航空航天大学材料工程专业 工学博士 2009 工作经历 新加坡南洋理工大学应用物理系 博士后 2009.01-2011.06 同济大学物理科学与工程学院 副教授 2011.06-2017.12 同济大学物理科学与工程学院 教 授 2018.01-至今

研究领域


""(1)纳米结构材料可控制备 \r
(2)能量存储与转换:光/电催化,燃料电池,锂/钠离子电池等 \r
(3)原子层沉积技术及应用"""(1)半导体纳米结构可控制备;\r
(2)能量存储与转换:光/电催化,锂/钠离子电池,燃料电池等\r
(3)原子层沉积技术及应用"

近期论文


17.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. 16.Guan. C,Sumboja. A, Wu. H. J., Ren. W. N.,Liu. 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 15.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. 14.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 13. 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. 12. 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. 11. 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. 10. Cheng.C. W., Fan. H. J., Branched nanowires: synthesis and energy applications. Nano Today 2012,7, 327-343.(Invited Review) 9. 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) 8. 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) 7. Cheng. C. W., Liu. B., Sie. E. J. et al.ZnCdO/ZnO coaxial multi-quantum-well nanowire heterostructures and the optical Properties. J. Phys. Chem. C 2010,114, 3863-3868. 6. Cheng. C. W., Liu. B., Sie. E. J et al.Surface plasmon enhanced bandgap luminescence of ZnO nanorods by capping Au nanoparticles, Appl.Phys.Lett. 2010, 96, 071107-071109. 5. Cheng. C. W., Yan. B., Wong. S. M. et al. Fabrication and SERS performance of silver nanoparticle-decorated Si/ZnO nanotrees in ordered arrays. ACS Appl Mater & Interfaces 2010, 7, 1824-1828.(封面文章) 4. Cheng. C. W.,Tay. Y. Y., Hng. H. H., Fan. H. J. Solution hetero epitaxial growth of TiO2@SnO2 dendritic nanostructures. J. Mater. Res. 2011, 26, 2254-2260. 3. Zhou. W. W., Cheng. C. W., Liu. J. P et al Epitaxial growth of six-old-symmetry branched Fe2O3/SnO2 nanoheterostructures with improved lithium-Ion battery performance. Adv. Func. Mater. 2011, 21, 2439-2455. 2. Liu. J. P., Cheng. C. W., Zhou. W. W., Li. H. X., Fan. H. J.,Ultrathin nickel hydroxidenitrate nanoflakes branched on nanowire arrays for high-rate pseudocapacitive energy storage. Chem. Commun. 2011, 47, 3436-3428. 1. Liu. J. P., Jiang. J., Cheng. C. W., Li. H. X., Zhang. J. X., Gong.H., Fan. H. J., Co3O4 Nanowire@MnO2 ultrathin nanosheet core-shell arrays: A new class of high-performance pseudocapacitive Materials, Adv.Mater. 2011,23,2076.

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