竇衛東,博士,副教授,紹興文理學院數理信息學院教師。主講課程是光學、大學物理。
基本介紹
- 中文名:竇衛東
- 畢業院校:浙江大學
- 學位/學歷:博士
- 職業:教師
- 職稱:副教授
2001年,山東師範大學物理系學士學位;2004年,浙江大學物理系碩士學位;2009年浙江大學物理系博士學位。2004年加入紹興文理學院數理信息學院。
研究經歷:
2006年2月至2009年3月在浙江大學物理系作為博士生從事有機/金屬界面以及有機分子在固體表面自組裝研究。2009年3月-2010年蒸影乃8月、2011年7月-2012年7月、2013年10月-2014年6月在香港城市大學超金剛石與先進薄姜翻立膜研究中心(COSDAF)從事石墨生長、有機薄膜生長、有機/石墨烯界芝汽坑照面方面的研究。2014年7月在紹興文理學院組建課題組,主要從事石墨烯等準二維材料製備、有機半導體薄膜及器件研究。
已順利結題國家自然科學基金青年項目、浙江省自然科學基金、浙江省科技廳錢江人才計畫項目各一項。目前主持國家自然科學基金面上項目一項。發表SCI論文30餘篇。2013年入選浙江省高校中青年學科帶頭人培養計畫。
研究領域:
(1) 有機/有機、有機/無機界面物理、有機/無機薄膜生長機踏殼連制及其在有機半導體器件中的套用。
(享辨慨2) 石墨烯、類石墨烯材只項格驗料的製備及其在光伏、儲能等方向的組捉套用。
主要論文:
1. Q. D. Yang, W.D. Dou, C. D. Wang, H. W. Mo, M. F. Lo, M. F. Yuen, T. W. Ng, W. J. Zhang, S. W. Tsang, C.S. Lee, Effects of graphene defect on electronic structures of its interface with organic semiconductor, Appl. Phys. Lett. 106, 133502(2015).
2. W. D. Dou, C. S. Lee, Controllable growth of copper-phthalocyanine thin film on rough graphene substrate, Appl. Phys. Lett. 105, 223110 (2014).
3. W. D. Dou, Q. D. Yang, C. S. Lee, Anisotropic film growth of iron-phthalocyanine on graphene on a Ni(111) substrate: Roles of molecule-substrate and intermolecular interaction, Appl. Phys. Lett. 102(13), 131606 (2013).
4. W. D. Dou, Q. D. Yang, C. S. Lee, The effects of oxygen on controlling the number of carbon layers in the chemical vapor deposition of graphene on a nickel substrate, Nanotechnology 24(18), 185603 (2013).
5. W. D. Ye, D. Liu, X. F. Peng, W. D. Dou*, Interfacial electronic structure at metal-phthalocyanines and graphene interface: copper-phthalocyanine versus iron-phthalocyanine, Chin. Phys. B 22 (11) 117301 (2013).
6. W. D. Dou, Q. D. Yang, C. S. Lee, Influences of Ion-Induced Defects on Growth of Copper-Phthalocyanine Film on Graphene Substrates, J. Phys. Chem. C 116(36), 19278-19284 (2012)。
7. R.A. Rehman, W. D. Dou, H. Q. Qian, H. Y. Mao, F. Floether, H. J. Zhang, H. Y. Li, P. M. He, S. N. Bao, Adsorption behavior of iron phthalocyanine at the initial stage on Cu(100) surface. Surface Science 606(21-22), 1749-1754 (2012).
8. W. D. Dou, S. P. Huang, R. Q. Zhang, C. S. Lee, Molecule–substrate interaction channels of metal-phthalocyanines on graphene on Ni(111) surface, J. Chem. Phys. 134(9), 094705 (2011).
9. W. D. Dou, Y. B. Tang, C. S. Lee, S. N. Bao, and S. T. Lee, Investigation on the orderly growth of thick zinc phthalocyanine films on Ag(100) surface, Journal of Chemical Physics 133(14), 144704 (2010).
10. W. D. Dou, H. J. Zhang, Structure of Reconstructed Cu(100) Surface Induced by Dissociative Adsorption of Gaseous Oxygen, Chinese Journal of Chemical Physics 23, 18-22 (2010).
11. W. D. Dou, H. J. Zhang, S. N. Bao, Scanning tunneling microscopy study of surface reconstruction induced by N adsorption on Cu (100) surface, Chinese Physics B 19, 026803 (2010).
12. H. Y. Mao, W. D. Dou, A Rehman, Q. Liao, H. J. Zhang, P. M. He, S. N. Bao, Molecular assembly of tetracene on the (2 ×1)O reconstructed Cu(1 1 0) surface, Applied Surface Science 256, 3598-3602 (2010).
13. W. D. Dou, D. D. Guan, H. Y. Mao, F. Song, H. Huang, H. J. Zhang, H. Y. Li, P. M. He, S. N. Bao, Aggregation of organic molecules on silver surface with the balance between molecule–substrate interaction and intermolecular interaction, Chemical Physics Letters 470, 126-130 (2009).
14. W. D. Dou, H. J. Zhang, S. N. Bao, Density functional theory calculations of tetracene on low index surfaces of copper crystal, Chinese Physics B 18, 344-348 (2009).
15. D. D. Guan, H. Y. Mao, M. L. Chen, W. D. Dou, F. Song, H. J. Zhang, H. Y. Li, P. M. He, H. Z. Chen, S. N. Bao, Interfacial electronic states of tetracene deposited on Si(111), Journal of Chemical Physics 130, 174712 (2009).
16. H. Y. Mao, D. D. Guan, M. L. Chen, W. D. Dou, F. Song, H. J. Zhang, H. Y. Li, P. M. He, S. N. Bao The chemisorption of tetracene on Si(100)2×1 surface, Journal of Chemical Physics, 131, 044701 (2009).
17. W. D. Dou, J. B. Zhu, Q. Liao, H. J. Zhang, P. M. He, S. N. Bao, Monolayer structure of tetracene on Cu(100) surface: Parallel geometry, Journal of Chemical Physics 128, 244706 (2008).
18. W. D. Dou, D. D. Guan, F. Song, N. N. Li, H. J. Zhang, H. Y. Li, P. M. He, H. Z. Chen, S. N. Bao, P. Hofmann,Valence electronic properties of n-channel organic materials based on fluorinated derivatives of perylene diimides, Journal of Chemical Physics 128, 244711 (2008).
19. F. Song, W. D. Dou, H. Huang, H. Y. Li, P. M. He, S. N. Bao, Q. Chen, W. Z. Zhou, The adsorption with chiral structure of fluorene-1-carboxylic acid molecules on Cu(110) surface, Chemical Physics Letters 452, 275-280 (2008).
20. W. D. Dou, N. N. Li, D. D. Guan, F. Song, H. Huang, H. J. Zhang, H. Y. Li, PM He, S. N. Bao, Q. Chen, W. Z. Zhou, Study on the interaction between tetracene and Cu(110) surface, Journal of Chemical Physics 127, 224709 (2007)
5. W. D. Ye, D. Liu, X. F. Peng, W. D. Dou*, Interfacial electronic structure at metal-phthalocyanines and graphene interface: copper-phthalocyanine versus iron-phthalocyanine, Chin. Phys. B 22 (11) 117301 (2013).
6. W. D. Dou, Q. D. Yang, C. S. Lee, Influences of Ion-Induced Defects on Growth of Copper-Phthalocyanine Film on Graphene Substrates, J. Phys. Chem. C 116(36), 19278-19284 (2012)。
7. R.A. Rehman, W. D. Dou, H. Q. Qian, H. Y. Mao, F. Floether, H. J. Zhang, H. Y. Li, P. M. He, S. N. Bao, Adsorption behavior of iron phthalocyanine at the initial stage on Cu(100) surface. Surface Science 606(21-22), 1749-1754 (2012).
8. W. D. Dou, S. P. Huang, R. Q. Zhang, C. S. Lee, Molecule–substrate interaction channels of metal-phthalocyanines on graphene on Ni(111) surface, J. Chem. Phys. 134(9), 094705 (2011).
9. W. D. Dou, Y. B. Tang, C. S. Lee, S. N. Bao, and S. T. Lee, Investigation on the orderly growth of thick zinc phthalocyanine films on Ag(100) surface, Journal of Chemical Physics 133(14), 144704 (2010).
10. W. D. Dou, H. J. Zhang, Structure of Reconstructed Cu(100) Surface Induced by Dissociative Adsorption of Gaseous Oxygen, Chinese Journal of Chemical Physics 23, 18-22 (2010).
11. W. D. Dou, H. J. Zhang, S. N. Bao, Scanning tunneling microscopy study of surface reconstruction induced by N adsorption on Cu (100) surface, Chinese Physics B 19, 026803 (2010).
12. H. Y. Mao, W. D. Dou, A Rehman, Q. Liao, H. J. Zhang, P. M. He, S. N. Bao, Molecular assembly of tetracene on the (2 ×1)O reconstructed Cu(1 1 0) surface, Applied Surface Science 256, 3598-3602 (2010).
13. W. D. Dou, D. D. Guan, H. Y. Mao, F. Song, H. Huang, H. J. Zhang, H. Y. Li, P. M. He, S. N. Bao, Aggregation of organic molecules on silver surface with the balance between molecule–substrate interaction and intermolecular interaction, Chemical Physics Letters 470, 126-130 (2009).
14. W. D. Dou, H. J. Zhang, S. N. Bao, Density functional theory calculations of tetracene on low index surfaces of copper crystal, Chinese Physics B 18, 344-348 (2009).
15. D. D. Guan, H. Y. Mao, M. L. Chen, W. D. Dou, F. Song, H. J. Zhang, H. Y. Li, P. M. He, H. Z. Chen, S. N. Bao, Interfacial electronic states of tetracene deposited on Si(111), Journal of Chemical Physics 130, 174712 (2009).
16. H. Y. Mao, D. D. Guan, M. L. Chen, W. D. Dou, F. Song, H. J. Zhang, H. Y. Li, P. M. He, S. N. Bao The chemisorption of tetracene on Si(100)2×1 surface, Journal of Chemical Physics, 131, 044701 (2009).
17. W. D. Dou, J. B. Zhu, Q. Liao, H. J. Zhang, P. M. He, S. N. Bao, Monolayer structure of tetracene on Cu(100) surface: Parallel geometry, Journal of Chemical Physics 128, 244706 (2008).
18. W. D. Dou, D. D. Guan, F. Song, N. N. Li, H. J. Zhang, H. Y. Li, P. M. He, H. Z. Chen, S. N. Bao, P. Hofmann,Valence electronic properties of n-channel organic materials based on fluorinated derivatives of perylene diimides, Journal of Chemical Physics 128, 244711 (2008).
19. F. Song, W. D. Dou, H. Huang, H. Y. Li, P. M. He, S. N. Bao, Q. Chen, W. Z. Zhou, The adsorption with chiral structure of fluorene-1-carboxylic acid molecules on Cu(110) surface, Chemical Physics Letters 452, 275-280 (2008).
20. W. D. Dou, N. N. Li, D. D. Guan, F. Song, H. Huang, H. J. Zhang, H. Y. Li, PM He, S. N. Bao, Q. Chen, W. Z. Zhou, Study on the interaction between tetracene and Cu(110) surface, Journal of Chemical Physics 127, 224709 (2007)