首页师资队伍师资队伍W
吴状春 Zhuangchun Wu

个人简介

2008年博士毕业于美国佛罗里达大学。2008-2012年在美国再生能源国家实验室(National Renewable Energy Laboratory)先后作为博士后,科学家从事能源储备,智能窗户的研究。2013年1月起在南京理工大学任职。
本人开创性地开展了碳纳米管透明电极的性能及应用研究。首次通过实验证明了由于碳纳米管的一维特性所固有的有限的电子态密度,可以通过外加电场进行调控,从而改变其费米面的位置。该效应可通过对应于不同波段的吸收光谱的改变而证实。由于碳纳米管透明电极的科学重要性和应用的广泛程度,尤其在红外及远红外透明性能远远优于已有的透明电极(如ITO),研究成果以第一作者在Science杂志上发表,已被引用超过1500次。本人利用在碳纳米管领域的经验,开展了锂离子电池活性颗粒和纳米管的复合材料研究。通过处理,形成均匀分布的纳米管弹性网络包裹的活性材料。该材料很好地解决了锂离子电池电极的导电性和体积变化带来的挑战。成果被Advanced Materials选作封面发表,已被引用超过160次。所有文章总引用超过2300次。

教育背景

Ph.D., University of Florida, Physics
M.S., University of Vermont, Material Science,
M.S. ,Nanjing University, Physics

工作履历

2013-, 南京理工大学材料科学与工程学院,教授
2008-2012, Scientist,Postdoc, National Renewable Energy Laboratory(NREL)
1991-2000, 南京大学固体微结构国家实验室,助工,工程师

学术/社会兼职

Reviewer for Nano Letters, Journal of Power Sources, Journal of Alloys and Compounds, Ionics etc.

研究领域/概况

锂离子正极、负极纳米复合材料的研发,尤其是大功率充放电的应用
柔性电极,太阳能电池, 发光二极管(LED,电致变色(智能窗户)
微生物燃料电池, 空气/水过滤,纳米材料对环境及人体的影响

奖励与荣誉

刘俊明,刘治国,吴状春,1999年国家教育部科技进步二等奖,获奖项目:共晶凝固动力学及相关问题的研究。
刘治国,刘俊明,陈晓原,吴状春,祝世宁,朱永元,胡卫生,2000年江苏省科技进步二等奖,获奖项目:铁电薄膜新效应及脉冲激光淀积制膜新技术的研究。

学术成果

美国专利:
  1. Chunmei Ban, Zhuangchun Wu, Anne Dillon, Method of fabricating electrodes including high-capacity, binder-free anodes for lithium ion batteries, 审批中, 申报日期: 2009年9月23日, 申请号: 12565500,
  2. Andrew G. Rinzler, Zhuangchun Wu, Bo Liu, Short channel vertical FETs, 美国专利号: 8217386, 批准日期: 2012年7月10日
  3. Andrew G. Rinzler, Zhuangchun Wu, Low temperature methods for forming patterned electrically conductive thin films, 美国专利号: 7,572,743, 批准日期: 2009年8月11日
  4. Andrew G. Rinzler, Lonnie O. Ingram, KeelnathamTShanmugam, Jonathan C Moore, Zhuangchun Wu, Enhanced electrical contact to microbes in microbial fuel cells, 美国专利号: 8,124,259,批准日期: 2012年2月28日
 
代表性论文:
  1. Zhuangchun Wu*, Zhihong Chen*, Xu Du, Jonathan M. Logan, Jennifer Sippel, Maria Nikolou, KatalinKamaras, John R. Reynolds, David B. Tanner, Arthur F. Hebard, Andrew G. Rinzler, (2004) Transparent, conductive carbon nanotube films, Science305, 1273-1276
  2. Chunmei Ban, Zheng Li, Zhuangchun Wu, Melanie J. Kirkham, Le Chen, YoonSeok Jung, E. Andrew Payzant, Yanfa Yan, M. Stanley Whittingham, Anne C. Dillon, Extremely Durable High-Rate Capability of a LiNi0.4Mn0.4Co0.2O2 Cathode Enabled by Single-Wall Carbon Nanotubes, Advanced Energy Materials 1, 58-62
  3. H. Wang, Z. Wu, A. Plaseied, P.E. Jenkins, L. Simpson, C. Engtrakul, and Z.Ren, (2011) Carbon nanotube modified air-cathodes for electricityproduction in microbial fuel cells, J. Power Sources, 196, 7465-7469
  4. Wan-Jian Yin, Su-Huai Wei, Chunmei Ban, Zhuangchun Wu, MowafakM.Al-Jassim, and Yanfa Yan, (2011) Origin of Bonding between the SWCNT and the Fe3O4 (001) Surface and the Enhanced Electrical Conductivity, J.Phys. Chem. Lett., 2, 2853–2858
  5. Chunmei Ban*, Zhuangchun Wu*, Dane T. Gillaspie, Le Chen, Yanfa Yan, Jeffrey L. Blackburn, Anne C. Dillon, (2010) Nanostructured Fe3O4-SWNT Electrodes: Binder-free and High-rate Li-ion Anode, Advanced Materials22, E145-E149 (Featured as the cover of Advanced Energy Material, May 20, 2010, *:equal contribution)
  6. AshkanBehnam, NischalArkaliRadhakrishna, Zhuangchun Wu, and Ant Ural, Electronic properties of metal-semiconductor and metal-oxide-semiconductor structures composed of carbon nanotube film on silicon, Appl. Phys. Lett. 97, 233105 (2010); doi:10.1063/1.3524194
  7. PoojaWadhwa, Bo Liu, Mitchell A. McCarthy, Zhuangchun Wu, Andrew G. Rinzler, Electronic Junction Control in a Nanotube-DemiconductorSchottky Junction Solar Cell, Nano Letters (2010) Publication Date (web): November 3, 2010, DOI:nl103128a
  8. Maria Nikolou, Aubrey Dyer, Timothy Steckler, Evan Donoghue, Zhuangchun Wu, Nathan Heston, Andrew Rinzler, David Tanner, John Reynolds, (2009) Dual n- and p-type DopableElectrochromic Devices Employing Transparent Carbon Nanotube Electrodes, Chemistry of Materials 215539-5547
  9. Bo Liu, Mitchell McCarthy, Youngki Yoon, Doyoung Kim, ZhuangchunWu, Franky So, Paul Holloway, John R. Reynolds, Jing Guo, and Andrew G. Rinzler, (2008) Vertical field effect and light emitting transistors, Advanced Materials, 20 (19), 3605-3609
  10. AshkanBehnam, Jason L. Johnson, Yongho Choi, Leila Noriega, M. GünhanErtosun, Zhuangchun Wu, Andrew G. Rinzler, PawanKapur, Krishna C. Saraswat, Ant Ural, (2008) Metal-Semiconductor-Metal photodetectors based on single-walled carbon nanotube film-GaAsschottky contacts, Journal of Applied Physics103, 114315
  11. AshkanBehnam, Yongho Choi, Leila Noriega, Zhuangchun Wu, Ivan Kravchenko, Andrew G. Rinzler, Ant Ural, (2007) Nanolithographic patterning of transparent, conductive single-walled carbon nanotube films by inductively coupled plasma reactive ion etching, J. Vac. Sci. Technol. B25, 348-354
  12. AshkanBehnam, Leila Noriega, Yongho Choi, Zhuangchun Wu, Andrew Rinzler, Ant Ural, (2006) Resistivity scaling in single-walled carbon nanotube films patterned to submicron dimensions, Applied Physics Letters89, 093107
  13. Jennifer Sippel-Oakley , Hung-Ta Wang, Byoung S Kang, Zhuangchun Wu, Fan Ren, Andrew Rinzler, Stephen J Pearton,   (2005) Carbon nanotube films for room temperature hydrogen sensing, Nanotechnology16 (10): 2218-2221
  14. Zhihong Chen, Zhuangchun Wu, Jennifer Sippel and Andrew G. Rinzler, Metallic/ Semiconducting nanotube separation and ultra-thin, transparent nanotube films, Proceedings of the XVIII Winterschool on the Electronic Properties of Novel Electronic Materials, American Institute of Physics, NY 2004
  15. K. Lee, Zhuangchun Wu,Zhihong Chen, Fan Ren, S. J. Pearton, Andrew G. Rinzler, (2004) Single wall carbon nanotubes for p-type Ohmic contacts to GaN light-emitting diodes,  Nano Lett.; (Communication);  4, 911-914
  16. XS Wang, ZC Wu, JF Webb and ZG Liu (2003) Ferroelectric and dielectric properties of Li-doped ZnO thin films prepared by pulsed laser deposition, APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING,77, 561-565