副院长 王穗东教授

发布时间:2016-12-16访问量:77设置




       2000年获得浙江大学物理学学士;2004年获得香港城市大学物理与材料科学博士。2004年至2006年在日本名古屋大学任博士后;2007年至2008年先后在日本理化研究所和日本产业技术縂合研究所任研究员。2008年底回国加入苏州大学功能纳米与软物质研究院(FUNSOM)和纳米科学技术学院(CNST)。

       2000-2004年在香港城市大学超金刚石与先进薄膜研究中心从事有机半导体表面/界面方面的研究。2004-2006年在日本名古屋大学材料科学研究中心从事有机互补式电路方面的研究。2007年在日本理化学研究所(RIKEN)以及2008年在日本产业技术縂合研究所(AIST)从事有机场效应晶体管方面的研究。回国后主要从事有机/杂化半导体器件的机理与应用研究。

        已顺利结题国家自然科学基金青年基金等多个项目。目前主持国家自然科学基金面上项目,国家自然科学基金国际合作交流项目等。已发表SCI论文90余篇,长期担任Advanced MaterialsApplied Physics LettersIEEE Electron Device  Letters等国际学术期刊的审稿人。


研究领域:

1)有机/杂化半导体器件:有机/杂化半导体智能存储器;有机/杂化半导体传感器;有机/杂化场效应晶体管的器件物理等。

2)功能纳米复合体材料:合金/半导体纳米复合体的离子液体辅助法制备,同步辐射表征,以及相关的催化、传感应用。


招生:

本课题组现有教授1位、讲师2位(高旭、徐建龙)、博士生3名、硕士生10名;已有多位研究生赴美国、英国、加拿大、日本和香港开展学术交流或继续深造。本课题组从事多学科交叉(物理、电子、材料科学、化学与生物)的应用基础研究,实验条件较好、经费较充裕。招收物理、电子、材料科学、化学或生物专业的硕士生、博士生与博士后,欢迎感兴趣的同学来咨询和交流。

E-mailwangsd@suda.edu.cn电话:0512-65880940


主要论文(*为通讯作者):

  

1. J. Liu, X. Gao*, J. L. Xu, A. Ruotolo*, and S. D. Wang*, “Flexible low-power organic complementary inverter based on low-k polymer dielectric”, IEEE Electron Device Letters, 2017, In Press.

2. J. L. Xu*, Y. H. Liu*, X. Gao, Y. Sun, S. Shen, X. Cai, L. Chen, and S. D. Wang*, “Embedded Ag grid electrodes as current collector for ultraflexible transparent solid-state supercapacitor”, ACS Applied Materials & Interfaces, 2017, 9, 27649-27656.

3. X. L. Cai, C. H. Liu*, J. Liu, Y. Lu, Y. N. Zhong, K. Q. Nie, J. L. Xu, X. Gao, X. H. Sun, and S. D. Wang*, “Synergistic effects in CNTs-PdAu/Pt trimetallic nanoparticles with high electrocatalytic activity and stability”, Nano-Micro Letters, 2017, 9, 48.

4. Z. D. Zhang, X. Gao*, Y. N. Zhong, J. Liu, L. X. Zhang, S. Wang, J. L. Xu, and S. D. Wang*, “Selective solar-blind UV monitoring based on organic field-effect transistor nonvolatile memories”, Advanced Electronic Materials, 2017, 3, 1700052. (Inside Cover)

5. Y. H. Liu, J. L. Xu*, S. Shen*, X. L. Cai, L. S. Chen, and S. D. Wang*, “High-performance, ultra-flexible and transparent embedded metallic mesh electrodes by selective electrodeposition for all-solid-state supercapacitor applications”, Journal of Materials Chemistry A, 2017, 5, 9032-9041.

6. C. H. Wang, X. Gao*, Y. N. Zhong, J. Liu, J. L. Xu, and S. D. Wang*, “Controlled surface doping for operating stability enhancement in organic field-effect transistors”, Organic Electronics, 2017, 42, 367-371.

7. X. Gao, M. F. Lin, B. H. Mao, M. Shimizu, N. Mitoma, T. Kizu, W. Ouyang, T. Nabatame, Z. Liu, K. Tsukagoshi*, and S. D. Wang*, “Correlation between active layer thickness and ambient gas stability in IGZO thin-film transistors”, Journal of Physics D: Applied Physics, 2017, 50, 025102.

8. C. H. Liu, F. Wang, Q. Liang*, J. Liu, Z. D. Chen, and S. D. Wang*, “A novel one-step synthesis method for cuprous nanoparticles on multi-walled carbon nanotubes with high catalytic activity”, Ceramics International, 2016, 42, 17916-17919.

9. Y. N. Zhong, X. Gao*, C. H. Wang, J. L. Xu, and S. D. Wang*, “Heterojunction effect on contact resistance minimization in staggered pentacene thin-film transistors”, Applied Physics Express, 2016, 9, 111601.

10. B. H. Mao, E. Crumlin, E. C. Tyo, M. J. Pellin, S. Vajda, Y. M. Li*, S. D. Wang*, and Z. Liu*, “In situ study of the electronic structure of atomic layer deposited oxide ultrathin films upon oxygen adsorption using ambient pressure XPS”, Catalysis Science & Technology, 2016, 6, 6778-6783.

11.   S. Wang, X. Gao*, Y. N. Zhong, Z. D. Zhang, J. L. Xu, and S. D. Wang*,  “Physical implication of transition voltage in organic nano-floating-gate  nonvolatile memories”, Applied Physics Letters, 2016, 109, 023301.

12.   C. H. Liu, X. L. Cai, J. S. Wang, J. Liu, A. Riese, Z. D. Chen, X. L. Sun*, and  S. D. Wang*, “One-step synthesis of AuPd alloy nanoparticles on graphene as a  stable catalyst for ethanol electro-oxidation”, International Journal of  Hydrogen Energy, 2016, 41, 13476-13484.

13.   Y. Y. Zhou, C. H. Liu*, J. Liu, X. L. Cai, Y. Lu, H. Zhang, X. H. Sun, and S.  D. Wang*, “Self-decoration of PtNi alloy nanoparticles on multiwalled carbon  nanotubes for highly efficient methanol electro-oxidation”, Nano-Micro Letters,  2016, 8, 371-380.

14. Q.  J. Sun, J. Peng, W. H. Chen, X. J. She, J. Liu, X. Gao, W. L. Ma*, and S. D.  Wang*, “Low-power organic field-effect transistors and complementary inverter  based on low-temperature processed Al2O3dielectric”,  Organic Electronics, 2016, 34, 118-123.

15. J.  Liu, C. H. Wang, C. H. Liu, Q. L. Li, X. Gao, and S. D. Wang*,  “Bias-stress-stable low-voltage organic field-effect transistors with ultrathin  polymer dielectric on C nanoparticles”, Advanced Electronic Materials, 2016, 2,  1500349.

16. X.  Lou, X. X. Wang, C. H. Liu, J. Liu, Z. Q. Cui, Z. H. Lu, X. Gao, and S. D.  Wang*, “Small-sized Al nanoparticles as electron injection hotspots in inverted  organic light-emitting diodes”, Organic Electronics, 2016, 28, 88-93.

17.     J.  Y. Zhang, L. M. Liu, Y. J. Su, X. Gao, C. H. Liu, J. Liu, B. Dong*, and S. D.  Wang*, “Synergistic effect in organic field-effect transistor nonvolatile memory  utilizing bimetal nanoparticles as nano-floating-gate”, Organic Electronics,  2015, 25, 324-328.

18. S.  H. Wei, Y. Y. Zhang, J. Liu, X. H. Li, Y. J. Wu, Y. Y. Weng, X. Gao, Y. N. Li,  S. D. Wang*, and Z. J. Hu*, “Large modulation of charge transport anisotropy by  controlling the alignment of π-π stacks in diketopyrrolopyrrole-based polymers”,  Advanced Materials Interfaces, 2015, 2, 1500153.

19. C.  H. Liu, J. Liu, Y. Y. Zhou, X. L. Cai, Y. Lu, X. Gao, and S. D. Wang*, “Small  and uniform Pd monometallic/bimetallic nanoparticles decorated on multi-walled  carbon nanotubes for efficient reduction of 4-nitrophenol”, Carbon, 2015, 94,  295-300.

20.   J.  B. Chang, C. H. Liu, J. Liu, Y. Y. Zhou, X. Gao, and S. D. Wang*,  “Green-chemistry compatible approach to TiO2-supported  PdAu bimetallic nanoparticles for solvent-free 1-phenylethanol oxidation under  mild conditions”, Nano-Micro Letters, 2015, 7, 307-315.

21.   C.  H. Liu, R. H. Liu, Q. J. Sun, J. B. Chang, X. Gao, Y. Liu, S. T. Lee*, Z. H.  Kang*, and S. D. Wang*, “Controlled synthesis and synergistic effect of  graphene-supported PdAu bimetallic nanoparticles with tunable catalytic  properties”, Nanoscale, 2015, 7, 6356-6362.

22.  Z.  Q. Cui, S. Wang, J. M. Chen, X. Gao, B. Dong*, L. F. Chi*, and S. D. Wang*,  “Direct probing of electron and hole trapping into nano-floating-gate in organic  field-effect transistor nonvolatile memories”, Applied Physics Letters, 2015,  106, 123303.

23.  J.  Wang, X. Lou, Y. Q. Liu, G. Z. Zhao, A. Islam, S. D. Wang*, and Z. Y. Ge*,  “Controllable molecular configuration for significant improvement of blue OLEDs  based on novel twisted anthracene derivatives”, Dyes and Pigments, 2015, 118,  137-144.

24.  B.  H. Mao, R. Chang, L. Shi, Q. Q. Zhuo, S. Rani, X. S. Liu, E. C. Tyo, S. Vajda,  S. D. Wang*, and Z. Liu*, “A near ambient pressure XPS study of subnanometer  silver clusters on Al2O3and  TiO2ultrathin  film supports”, Physical Chemistry Chemical Physics, 2014, 16,  26645-26652.

25.  Q.  L. Li, C. H. Liu, Y. T. Nie, W. H. Chen, X. Gao, X. H. Sun*, and S. D. Wang*,  “Phototransistor based on single In2Se3nanosheets”,  Nanoscale, 2014, 6, 14538-14542.

26.  J.  Liu, C. H. Liu, X. J. She, Q. J. Sun, X. Gao, and S. D. Wang*, “Organic  field-effect transistor nonvolatile memories utilizing sputtered C nanoparticles  as nano-floating-gate”, Applied Physics Letters, 2014, 105, 163302.

27.  J.  P. Yang, Q. J. Sun, K. Yonezawa, A. Hinderhofer, F. Bussolotti, X. Gao, N. Ueno,  S. D. Wang*, and S. Kera*, “Interface optimization using diindenoperylene for  C60thin  film transistors with high electron mobility and high stability”, Organic  Electronics, 2014, 15, 2749-2755.

28.  X.  Gao, C. H. Liu, X. J. She, Q. L. Li, J. Liu, and S. D. Wang*,  “Photon-energy-dependent light effects in organic nano-floating-gate nonvolatile  memories”, Organic Electronics, 2014, 15, 2486-2491.

29.  H.  J. Liang, X. X. Wang, X. Y. Zhang, Z. Y. Liu, Z. Y. Ge*, X. H. Ouyang*, and S.  D. Wang*, “Saturated deep-blue emitter based on  spiro[benzoanthracene-fluorene]-linked phenanthrene derivative for non-doped  organic light-emitting diodes”, New Journal of Chemistry, 2014, 38,  4696-4701.

30.  H.  J. Liang, X. X. Wang, X. Y. Zhang, Z. Y. Ge*, X. H. Ouyang*, and S. D. Wang*,  “Efficient tuning of electroluminescence from sky-blue to deep-blue by changing  the constitution of spirobenzofluorene derivatives”, Dyes and Pigments, 2014,  108, 57-63.

31.  Q.  Y. Cui, C. Gu, J. Liu, L. R. Feng, S. D. Wang*, and X. J. Guo*, “Threshold  voltage extraction in the saturation regime insensitive to the contact  properties for organic thin-film transistors”, IEEE Journal of Display  Technology, 2014, 10, 615-618.

32.  W.  H. Chen, C. H. Liu, Q. L. Li, Q. J. Sun, J. Liu, X. Gao, X. H. Sun, and S. D.  Wang*, “Intrinsic Ge nanowire nonvolatile memory based on simple core-shell  structure”, Nanotechnology, 2014, 25, 075201.

33.  J.  Peng, X. X. Wang, J. Liu, X. D. Huang, J. Xiao, S. D. Wang*, H. Q. Wang*, and W.  L. Ma*, “A facile solution-processed alumina as efficient electron-injection  layer for inverted organic light-emitting diodes”, Journal of Materials  Chemistry C, 2014, 2, 864-869.

34.  X.  X. Wang, J. Xiao, X. Gao, X. H. Zhang, and S. D. Wang*, “Impact of compound  doping on hole and electron balance in p-i-n organic light-emitting diodes”, AIP  Advances, 2013, 3, 102124.

35.  X.  J. She, J. Liu, J. Y. Zhang, X. Gao, and S. D. Wang*, “Spatial profile of charge  storage in organic field-effect transistor nonvolatile memory using polymer  electret”, Applied Physics Letters, 2013, 103, 143302.

36.  X.  J. She, J. Liu, J. Y. Zhang, X. Gao, and S. D. Wang*, “Operational stability  enhancement of low-voltage organic field-effect transistors based on bilayer  polymer dielectrics”, Applied Physics Letters, 2013, 103, 133303.

37.  Y.  Yan, Q. J. Sun, X. Gao, P. Deng, Q. Zhang*, and S. D. Wang*, “Probing bias  stress effect and contact resistance in bilayer ambipolar organic field-effect  transistors”, Applied Physics Letters, 2013, 103, 073303.

38.  B.  H. Mao, C. H. Liu, X. Gao, R. Chang, Z. Liu*, and S. D. Wang*, “In situ  characterization of catalytic activity of graphene stabilized small-sized Pd  nanoparticles for CO oxidation”, Applied Surface Science, 2013, 283,  1076-1079.

39.  J.  Peng, Q. J. Sun, S. D. Wang*, H. Q. Wang*, and W. L. Ma*, “Low-temperature  solution-processed alumina as gate dielectric for reducing the operating-voltage  of organic field-effect transistors”, Applied Physics Letters, 2013, 103,  061603.

40.  C.  H. Liu, X. Q. Chen, Y. F. Hu, T. K. Sham, Q. J. Sun, J. B. Chang, X. Gao, X. H.  Sun, and S. D. Wang*, “One-pot environmentally friendly approach toward highly  catalytically active bimetal-nanoparticle-graphene hybrids”, ACS Applied  Materials & Interfaces, 2013, 5, 5072-5079.

41.  B.  H. Mao, R. Chang, S. Lee, S. Axnanda, E. Crumlin, M. E. Grass, S. D. Wang*, S.  Vajda, and Z. Liu*, “Oxidation and reduction of size-selected subnanometer Pd  clusters on Al2O3surface”,  Journal of Chemical Physics, 2013, 138, 214304.

42.  Q.  J. Sun, X. Gao, and S. D. Wang*, “Understanding temperature dependence of  threshold voltage in pentacene thin film transistors”, Journal of Applied  Physics, 2013, 113, 194506.

43.   J.  Zhong, J. Wang, J. G. Zhou, B. H. Mao, C. H. Liu, H. B. Liu, Y. L. Li, T. K.  Sham*, X. H. Sun*, and S. D. Wang*, “Electronic structure of graphdiyne probed  by X-ray absorption spectroscopy and scanning transmission X-ray microscopy”,  Journal of Physical Chemistry C, 2013, 117, 5931-5936.

44.  X.  J. She, C. H. Liu, J. Y. Zhang, X. Gao, and S. D. Wang*, “Elucidation of ambient  gas effects in organic nano-floating-gate nonvolatile memory”, Applied Physics  Letters, 2013, 102, 053303.

45.  X.  Gao, X. J. She, C. H. Liu, Q. J. Sun, J. Liu, and S. D. Wang*, “Organic  field-effect transistor nonvolatile memories based on hybrid  nano-floating-gate”, Applied Physics Letters, 2013, 102, 023303.

46.  J.  Xiao, X. X. Wang, H. Zhu, X. Gao, Z. H. Yang, X. H. Zhang*, and S. D. Wang*,  “Efficiency enhancement utilizing hybrid charge generation layer in tandem  organic light-emitting diodes”, Applied Physics Letters, 2012, 101,  013301.

47.  J.  Xiao, H. Zhu, X. X. Wang, X. Gao, Z. H. Yang, X. H. Zhang*, and S. D. Wang*,  “Space charge induced electroluminescence spectra shift in organic  light-emitting diodes”, Journal of Applied Physics, 2012, 112, 014513.

48.  X.  J. She, C. H. Liu, Q. J. Sun, X. Gao*, and S. D. Wang*, “Morphology control of  tunneling dielectric towards high-performance organic field-effect transistor  nonvolatile memory”, Organic Electronics, 2012, 13, 1908-1915.

49. R.  H. Que, Q. Shao, Q. L. Li, M. W. Shao*, S. D. Cai, S. D. Wang*, and S. T. Lee*,  “Flexible nanogenerators based on graphene oxide films for acoustic energy  harvesting”, Angewandte Chemie International Edition, 2012, 51,  5418-5422.

50.  C.  H. Liu, B. H. Mao, J. Gao, S. Zhang, X. Gao, Z. Liu, S. T. Lee, X. H. Sun, and  S. D. Wang*, “Size-controllable self-assembly of metal nanoparticles on carbon  nanostructures in room-temperature ionic liquids by simple sputtering  deposition”, Carbon, 2012, 50, 3008-3014.

51. P.  Deng, Y. Yan, S. D. Wang*, and Q. Zhang*,  “Naphthoylene(trifluoromethylbenzimidazole)-dicarboxylic acid imides for  high-performance N-type organic field-effect transistors”, Chemical  Communications, 2012, 48, 2591-2593.

52.  J.  Zhong, J. J. Deng, B. H. Mao, T. Xie, X. H. Sun, Z. G. Mou, C. H. Hong, P. Yang,  and S. D. Wang*, “Probing solid state N-doping in graphene by X-ray absorption  near-edge structure spectroscopy”, Carbon, 2012, 50, 335-338.

53.  R.  H. Que, M. W. Shao*, S. J. Zhuo, C. Y. Wen, S. D. Wang*, and S. T. Lee*, “Highly  reproducible surface-enhanced Raman scattering on a capillarity-assisted gold  nanoparticle assembly”, Advanced Functional Materials, 2011, 21,  3337-3343.

54.  Q.  L. Li, Y. Li, J. Gao, S. D. Wang*, and X. H. Sun*, “High performance single  In2Se3nanowire  photodetector”, Applied Physics Letters, 2011, 99, 243105. (selected by Virtual  Journal of Nanoscale Science & Technology)

55.  H.  Zhu, Q. L. Li, X. J. She, and S. D. Wang*, “Surface roughening evolution in  pentacene thin film growth”, Applied Physics Letters, 2011, 98, 243304.

56.  Y.  Yan, X. J. She, H. Zhu, and S. D. Wang*, “Origin of bias stress induced  instability of contact resistance in organic thin film transistors”, Organic  Electronics, 2011, 12, 823-826.

57.  R.  H. Que, M. W. Shao*, T. Chen, H. Y. Xu, S. D. Wang*, and S. T. Lee, “Diamond  nanoparticles with more surface functional groups obtained using carbon  nanotubes as sources”, Journal of Applied Physics, 2011, 110, 054321.

58.  Z.  G. Mou, X. Y. Chen, Y. K. Du, X. M. Wang, P. Yang*, and S. D. Wang*, “Forming  mechanism of nitrogen doped graphene prepared by thermal solid-state reaction of  graphite oxide and urea”, Applied Surface Science, 2011, 258, 1704-1710.

59.  Z.  G. Mou, Y. P. Dong, S. J. Li, Y. K. Du, X. M. Wang, P. Yang*, and S. D. Wang*,  “Eosin Y functionalized graphene for photocatalytic hydrogen production from  water”, International Journal of Hydrogen Energy, 2011, 36, 8885-8893.

60.  X.  Y. Chen, H. Zhu, and S. D. Wang*, “Charge accumulation dynamics in organic thin  film transistors”, Applied Physics Letters, 2010, 97, 243301.

61.   S. D. Wang*, Y. Yan, and K. Tsukagoshi, “Understanding contact behavior in  organic thin film transistors”, Applied Physics Letters, 2010, 97,  063307.

62.  S.  D. Wang*, Y. Yan, and K. Tsukagoshi, “Transition voltage method for estimating  contact resistance in organic thin film transistors”, IEEE Electron Device  Letters, 2010, 31, 509-511.

63.  S.  D. Wang*, T. Minari, T. Miyadera, K. Tsukagoshi*, and J. X. Tang, “Contact  resistance instability in pentacene thin film transistors induced by ambient  gases”, Applied Physics Letters, 2009, 94, 083309.

64.  S.  D. Wang*, T. Miyadera, T. Minari, Y. Aoyagi, and K. Tsukagoshi*, “Correlation  between grain size and device parameters in pentacene thin film transistors”,  Applied Physics Letters, 2008, 93, 043311.

65.  S.  D. Wang*, T. Minari, T. Miyadera, Y. Aoyagi, and K. Tsukagoshi*, “Bias stress  instability in pentacene thin film transistors: Contact resistance change and  channel threshold voltage shift”, Applied Physics Letters, 2008, 92,  063305.

66.  S.  D. Wang, T. Minari, T. Miyadera, K. Tsukagoshi*, and Y. Aoyagi, “Contact-metal  dependent current injection in pentacene thin film transistors”, Applied Physics  Letters, 2007, 91, 203508.

67.  S.  D. Wang*, K. Kanai, Y. Ouchi, and K. Seki, “Bottom contact ambipolar organic  thin film transistor and organic inverter based on C60/pentacene  heterostructure”, Organic Electronics, 2006, 7, 457-464.

68.  S.  D. Wang*, K. Kanai, E. Kawabe, Y. Ouchi, and K. Seki, “Enhanced electron  injection into tris(8-hydroxyquinoline) aluminum (Alq3)  thin films by tetrathianaphthacene (TTN) doping revealed by current-voltage  characteristics”, Chemical Physics Letters, 2006, 423, 170-173.

69.  S.  D. Wang, X. Dong, C. S. Lee, and S. T. Lee*, “Molecular orientation and film  morphology of pentacene on native silicon oxide surface”, Journal of Physical  Chemistry B, 2005, 109, 9892-9896.

70.  S.  D. Wang, X. Dong, C. S. Lee, and S. T. Lee*, “Orderly growth of copper  phthalocyanine on highly oriented pyrolytic graphite (HOPG) at high substrate  temperatures”, Journal of Physical Chemistry B, 2004, 108, 1529-1532.

71.  S.  D. Wang, M. K. Fung, S. L. Lai, S. W. Tong, C. S. Lee, S. T. Lee*, H. J. Zhang,  and S. N. Bao, “Experimental study of a chemical reaction between LiF and Al”,  Journal of Applied Physics, 2003, 94, 169-173.



授权专利:

金属纳米颗粒与碳材料复合物的自组装可控制备方法”, 发明专利, ZL201210062310.7


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