个人简介
吴进明,男,教授。1999年3月博士毕业后留校任教至今。2002年12月晋升副教授,2010年12月晋升教授。期间于2000年7月至2002年7月赴日本冈山大学从事博士后研究,2005年3月至9月在香港大学以Research Associate身份进行生物材料方面合作研究,2006年7月至2007年6月获德国洪堡奖学金,在马普学会胶体与界面研究所(波茨坦)从事有序介孔薄膜研究。迄今在国内外专业期刊发表论文130余篇,其中被SCI收录的论文100余篇,论文SCI引用2100余次(http://www.researcherid.com/rid/B-4124-2009)。负责或参加多项国家自然科学基金及省自然科学基金项目。
主要研究方向:光催化污水处理、生物材料、金属基复合材料。

Associate Editor, RSC Advances
Editorial Board Member, Scientific Reports
Editorial Board Member, Heliyon
Editorial Board Member, Science of Advanced Materials 

Jin-Ming Wu received his B. S. (1994), M. S. (1996) and Ph. D. (1999) in Materials Science from ZhejiangUniversity. After two years’ postdoctoral training in the Biomedical Materials Lab of Okayama University, Japan, with Professor Akiyoshi Osaka, he was promoted to Associate Professor of the Department of Materials Science and Engineering of Zhejiang University in 2002. He worked as a Research Associate in HongKongUniversity with Dr. Min Wang in 2005 and as a Humboldt Research Fellow in Max-Planck Institute Colloids and Interfaces (Potsdam, Germany) with Professor Bernd M. Smarsly and Professor Markus Antonietti during 2006~2007. In 2010, he was promoted to Professor. Dr. Wu is the author or co-author of over 100 peer-reviewed scientific papers. Currently he serves as a member of International Editorial Board of the scientific journal “Science of Advanced Materials” by American Scientific Publishers (http://www.aspbs.com/sam/). His research interests include surface modifications of titanium alloys for biomedical applications, low-temperature fabrication and photocatalytic, photoelectrochemical characterizations of crystalline titania-based thin films.


Contact information

Dept. Mater. Sci. & Eng., Zhejiang University, Hangzhou 310027
Office: YuQuan campus, Building 6-108
Phone: +86-571-87953115
FAX: +86-571-87952358

Most recently published papers

1. Jiang, R.; Wen, W.; Luo, Y.; Wu, J. M.* (2017): Low temperature synthesis of few-layer titanate nanobelts on Ti mesh and the hot-water induced transformations to highly photocatalytic active titania nanorods, Journal of Environmental Chemical Engineering, 5, 4676-4683.

2. Lai, L. L.; Wen, W.; Wu, J. M.* (2017): Room-Temperature Hydrolysis of Potassium Titanyl Oxalate and Water-Assisted Crystallization for TiO2 with High Photocatalytic Activity, ChemistrySelect, 2, 5025-5031.

3. Yu, Y.; Wen, W.; Qian, X.Y.; Liu, J.B.; Wu, J. M.* (2017):  UV and visible light photocatalytic activity of Au/TiO2 nanoforests with Anatase/Rutile phase junctions and controlled Au locations, Scientific Reports 7, 41253.

4. Wen, W.; Wu, J. M.*; Jiang, Y.Z.; Lai, L.L.; Song, J. (2017): Pseudocapacitance-enhanced Li-ion microbatteries derived by a TiN@ TiO2 nanowire anode, Chem 2, 404-416.

5. Xu, Y.; Wen, W.; Tang, M.Z.; Wu, J. M.* (2017):  Photocatalytically active TiOmicrotubes assembled with radially aligned nanowiresMaterials Chemistry Frontiers 1, 1453-1458.


Selected papers

1.    Wen, W., Wu, J. M.*, Jiang, Y. Z., Yu, S. L., Bai, J. Q., Cao, M. H., Cui, J. (2015)Anatase TiO2 ultrathin nanobelts derived from room-temperature-synthesized titanates for fast and safe lithium storageScientific Reports 5, 11804.
Figure 1
 
2.         Li, B., Wu, J. M.*, Guo, T. T., Tang, M. Z., Wen, W. (2014): A facile solution route to deposit TiO2 nanowire arrays on arbitrary substrates, Nanoscale 6, 3046-50.
3.         Wen, W., Wu, J. M.*, Cao, M. H. (2013): Rapid one-step synthesis and electrochemical performance of NiO/Ni with tunable macroporous architectures, Nano Energy 2, 1383-90.
4.         Wen, W., Wu, J. M.* (2011): Eruption Combustion Synthesis of NiO/Ni Nanocomposites with Enhanced Properties for Dye-Absorption and Lithium Storage, ACS Applied Materials & Interfaces 3, 4112-19.
5.         Wu, J. M.*, Xue, H. X. (2009): Photocatalytic active titania nanowire arrays on Ti substrates, Journal of the American Ceramic Society 92, 2139-43.
6.         Song, X. M., Wu, J. M.*, Tang, M. Z., Qi, B., Yan, M. (2008): Enhanced photoelectrochemical response of a composite titania thin film with single-crystalline rutile nanorods embedded in anatase aggregates, Journal of Physical Chemistry C 112, 19484-92.
7.         Wu, J. M., Antonietti, M., Gross, S., Bauer, M., Smarsly, B. (2008): Ordered mesoporous thin films of rutile TiO2 nanocrystals mixed with amorphous Ta2O5. ChemPhysChem 9, 748-57.
8.         Wu, J. M.*, Qi, B. (2007): Low-temperature growth of a nitrogen-doped titania nanoflower film and its ability to assist photodegradation of rhodamine B in water. Journal of Physical Chemistry C 111, 666-673.
9.         Wu, J. M.*, Zhang, T. W., Zeng, Y. W., Satoshi, H., Tsuru, K. and Osaka, A. (2005): Large-scale preparation of ordered titania nanorods with enhanced photocatalytic activity. Langmuir 21, 6995-7002.
10.         Wu, J. M., Satoshi, H., Tsuru, K. and Osaka, A. (2004): Low-temperature preparation of anatase and rutile layers on titanium substrates and their ability to induce in vitro apatite deposition. Journal of the American Ceramic Society 87, 1635-1642.
11.         Wu, J. M.* and Li, Z. Z. (2000): Nanostructured composite obtained by mechanically driven reduction reaction of CuO and Al powder mixture. Journal of Alloys and Compounds 299, 9-16.

 


Book Chapters

        1.      吴进明 (2004): 应用材料基础,浙江大学出版社,杭州,ISBN: 7-308-03803-3/TB.031. [Jin-Ming Wu (2004): Fundamental of Applied Materials, Zhejiang University Publisher, Hangzhou, ISBN: 7-308-03803-3/TB.031.]
 
        2.      Book Chapters in: Metal Oxide Nanostructures and Their Applications, Ed. A. Umar and Y. B. Hahn, 2010, American Scientific Publishers, USA. ISBN: 1-58883-170-1. http://www.aspbs.com/mona/
        1) Jin-Ming Wu, Xiao-Mei Song, Low-temperature derived crystalline titania nanostructures for photocatalysis applications. pp. 210-245;
        2) Jin-Ming Wu, Min Wang, Bioactive Bioceramic Coatings: Part I. Coatings on Non-Metallic Biomaterials. pp. 451-478;
        3) Jin-Ming Wu, Min Wang, Bioactive Bioceramic Coatings: Part II. Coatings on Metallic Biomaterials. pp. 479-509.

 

工作研究领域

1. 颗粒增强铝基原位复合材料 2. 机械合金化 3. 光催化 4. 生物材料

联系方式

电话:0571-87953115
电子信箱:msewjm@zju.edu.cn