Jun Wang
发布时间: 2019-04-01 浏览次数: 124

Jun Wang professor

school of sciences

telephone021-60873129

  e-mailwangj@sit.edu.cn

education backgroud

2000.09-2005.0,理学博士,中国科学院长春应用化学研究所

1996.9-2000.7, 理学学士, 安徽大学

研究兴趣:有机光电材料与器件,二维纳微米材料与器件

讲授课程:有机电子学,大学物理,大学物理实验

科研项目:

  • 国家自然科学青年基金(60806007)主持;

  • 国家自然科学基金面上项目(61176021)主持;

  • 教育部重点创新项目(2010)主持;

  • 上海市教委重点创新项目(2010)主持;

  • 上海市曙光学者项目(2010)主持;

  • 国家高技术研究发展计划(863)子课题负责人;

  • 上海市科技启明星项目(2007)主持;

  • 上海市经信委重点项目(2012,和上海天马合作)子课题负责人;

  • 福建省工业引导性重点项目(2015);

科研获奖:

上海市科技启明星人才(2007)

上海市曙光学者(2010)

福建省闽江学者特聘教授(2013)

科研论文:

  1. Y. Zhang, X. Wei, H. Zhang, X. Chen, J. Wang*, “Ambipolar organic transistors with high on/off ratio by introducing a modified layer of gate insulator”, Applied surface science 427 (2018) 452.

  2. X. Cheng, X. Wei, H. Zhang, J. Wang*, “Highly improved charge injection in pentacene-based organic transistors by chemically doping with copper iodide interlayer”,  Physica status solidi a 1700064 (2017).  

  3. H. Gui, B. Wei, J. Wang*, “The hybridization and optimization of complementary DNA molecules on organic field-effect transistors” Materials Science in Semiconductor Processing, 30 (2015) 250.  

  4. X. Chen, H. Gui, B. Wei, J. Wang*, “A label-free biosensor based on organic transistors by using the interaction of mercapto DNA and gold electrodes, Materials Science in Semiconductor Processing. 35 (2015) 127.  

  5. H. Gui, B. Wei, J. Wang*, “Inserting a Mn-doped TiO2 layer for improving performance of pentacene organic thin-film transistors” Organic Electronics, 15 (2014) 3349.  

  6. H. Gui, Z. Zhu, B. Wei, J. Wang*, “enhanced-mobility organic field-effect transistors fabricated under solvent vapor atmosphere” Nano, 9 (2014) 1450049

  7. Z. Zhu, B. Wei, J. Zhang, J. Wang*, “A novel solution-base self-assembly approach to preparing ultralong titanyl phthalocyanine sub-micron wire” Chin. Phys. B. 23 (2014) 077202.

  8. H. Gui, B. Wei, J. Zhang, J. Wang*, “Improved charge injection of pentacene transistors by immobilizing DNA on gold source-drain electrodes” Applied Physics A 115 (2014) 759.

  9. Z. Zhu, B. Wei, and J. Wang*, “Self-assembly of poly (3-hexylthiophene) nanowire networks by a mixed-solvent approach for organic field-effect transistors” Phys. Status Solidi RRL, 3 (2014) 252. IF3.032 SCI 2 Q 2.  

  10. W. Gu, Y. Hu, Z. Zhu, N. Liu, J. Zhang, J. Wang*, “Preparing highly ordered copper phthalocyanine thin-film by controlling the thickness of the modified layer and its application in organic transistors” Solid-state Electronics 89 (2013) 101.  

  11. Y. Hu, W. Gu, N. Liu, Z. Zhu, J. Zhang, J. Wang*, “Fabricating organic transistors based on domain-ordered copper phthalocyanine film grown on oligothiophene epitaxial substrate” Phys. Status Solidi RRL, 1-4 (2013) IF3.032 SCI 2 Q 2.

  12. N. Liu, Y. Hu, J. Zhang, J. Cao, Y. Liu, J. Wang*, “A label-free organic transistors biosensors by introducing electric bias during DNA immobilization” Organic Electronics 13 2781 (2012).

  13. Q. Zhu, F. Xing, C. Liu, Y. Hu, N. Liu, and J. Wang*, “The immobilization and electrical response of single-stranded DNA molecules on pentacene transistors”, Applied Physics Letters 99 073301 (2011).

  14. C. Liu, Q. Zhu, W. Jin, W. Gu, J. Wang*, “The ultraviolet-ozone effects on organic thin-film transistors with double polymeric dielectric layers” Synthetic Metals 161 1635 (2011).

  15. X. Guo, F. Hong, W. Jin, W. Gu, H. Zhang, J. Wang*, “Ambipolar charge transport in organic p-p junction disclosed by field-effect transistor and diode”, Organic Electronics 11 876 (2010).

  16. C. Jin, H. Fei, X. Fei, G. Wen, G. Xin, W. Bin, Z. Jianhua, W. Jun*, “High performance n-channel organic thin-film transistors based on the dual effects of heterojunction and surface modification” Chinese Physics B 19 037106 (2010).

  17. X. Guo, F. Xing, F. Hong, J. Zhang, B. Wei, J. Wang*, “Improving organic field-effect transistors based on double active layers structure”, Current Applied Physics 10 89 (2010).

  18. W. Gu, W. Jin, B. Wei, J. Zhang, and J. Wang*, “High-performance organic field-effect transistors based on copper/copper sulphide bilayer source-drain electrodes” Applied Physics Letters 97 243303 (2010).

  19. W. Gu, X. Li, H. Zhang, B. Wei, J. Zhang, J. Wang*, “The influences of substrate temperature on ambipolar organic heterojunction transistors”, Thin Solid Films 519, 439 (2010).

  20. F. Hong, F. Xing, W. Gu, W. Jin, J. Zhang, J. Wang*, “Depletion- and ambipolar-mode field-effect transistors based on the organic heterojunction composed of pentacene and hexadecafluorophtholocyaninatocopper”, Synthetic Metals 160, 475 (2010).

  21. F. Hong, X. Guo, H. Zhang, B. Wei, J. Zhang, J. Wang*, “Preparation of highly oriented copper phthalocyanine film by molecular templating effects for organic field-effect transistor” Organic Electronics 10, 1097 (2009).

  22. J. Wang, B. Wei, and J. Zhang, “Fabricating an organic complementary inverter by integrating two transistors on a single substrate” Semiconductor Sciences and Technology, 23, 055003 (2008).

  23. B. Wei, J. Wang*, C. Li, A. Shimada, M. Ichikawa, Y. Taniguchi, and T. Kamikawa, Organ. Electron. 9,323 (2008).

  24. J. Wang, H. B. Wang, X. J. Yan, H. C. Huang, D. Jin, J. W. Shi, Y. H. Tang and D. H. Yan, “Heterojunction Ambipolar Organic Transistors Fabricated by Two-Step Vacuum Deposition Process”, Advanced. Functional. Materials.(Full paper) 16, 824 (2006).  

  25. J. Wang, H. B. Wang, X. J. Yan, H. C. Huang, and D. H. Yan, “Organic Heterojunction and Its Application for Double Conducting Channel Organic Field-Effect Transistors”, Applied. Physics. Letters. 87, 093507 (2005).  

  26. J. Wang, X. J. Yan, Y. X. Xu, J Zhang, and D. H. Yan, “Organic Thin-Film Transistor Based Organic- Inorganic Double Gate Insulators”, Applied. Physics. Letters. 85, 5424 (2004).

  27. J. Wang, H. B Wang, X. J. Yan, H. C. Huang, and D. H. Yan, “Air-Stable Ambipolar Organic Field-Effects Based on Phthalocyanine Composites Heterojunction”, Chemical. Physics. Letters.407, 97(2005).  

  28. J. Wang, H. B Wang, J Zhang, X. J. Yan, and D. H. Yan, “Organic Thin-Film Transistors with Improved Characteristics Using Rare Earth Bisphthalocyanine As A Buffer Layer”, Journal of Applied Physics. 97, 026106 (2005).

  29. H. Wang, J. Wang, X. J. Yan, H. K. Tian, Y. H. Geng, and Donghang, Yan, “ Ambipolar Organic Heterojunction Transistors with Air-Stable, High Mobility, and Balanced Charge Transportation”, Applied. Physics. Letters. 88, 133508 (2006).  

  30. H. Wang, J. Wang, H. C. Huang, X. Yan, D. Yan, “Organic heterojunction with reverse rectifying characteristics and its application in field-effect transistors”, Organic Electronics. 7, 369 (2006).

  31. X. J. Yan, J. Wang,H. B. Wang, H. Wang, and D. H. Yan, “Improved n-type organic transistors by introducing organic heterojunction buffer layer under source/drain electrodes”, applied. Physics. Letters. 89, 053510 (2006).  

  32. J. Zhang, H. B. Wang, X. J. Yan, J. Wang, J. W. Shi and D. H. Yan, “Phthalocyanine Composites as High Mobility Semiconductor for Organic Thin-Film Transistors”, Advanced. Materials. 17, 1197 (2005).  

  33. H. Tian, J. Wang, J. Shi, D. Yan, L. Wang,, G. Hou, and F. Wang, “Novel thiophene-aryl co-oligomers for organic thin film transistors”, Journal of Materials Chemistry. 15, 3026 (2005).

  34. J. Zhang, F. Lu, H. Huang, J. Wang, J. Jiang, D. Yan, Z. Wang, “Near infrared electrochromism of lutetium phthalocyanine”, Synthetic Metals 148, 123 (2005).

  35. J. Yuan, J. Zhang, J. Wang, D. Yan, W. Xu, “Study on the instability of organic field-effect transistors based on fluorinated copper phthalocyanine” Thin Solid Films 450 316 (2004).

  36. J. Zhang, J. Wang, H. Wang, and D. Yan, “Organic thin-film transistors in sandwich configuration”, Applied Physics Letters 84, 142 (2004).