陳海濤[揚州大學物理科學與技術學院副教授]

陳海濤[揚州大學物理科學與技術學院副教授]

2006.9-2009.6 南京大學, 獲物理學專業博士學位 2009.6-2012.8 揚州大學講師 2012.8-至今揚州大學副教授 地址:揚州市四望亭路180號,揚州大學物理科學與技術學院,225002 辦公地點:物理樓506

一、導師簡歷:

1.教育經歷

2006.9-2009.6 南京大學, 獲物理學專業博士學位;

2. 工作經歷

2012.8-至今揚州大學副教授

2009.6-2012.8 揚州大學講師

期間:

2011.9-2012.3 德國亞琛工業大學海外交流,訪問學者

二、研究領域:

1、研究方向:

1. 功能納米結構製備與納米加工:主要涉及各種半導體功能準一維納米結構(如納米管、半導體納米線)製備,可控制生長與摻雜研究;半導體納米結構的顯微結構、生長機理與生長動力學研究;對低維材料,如納米材料、發光薄膜、半導體量子阱等進行解剖,研究其微觀結構,探索顯微結構與物理性能的關係

2. 低維物理與納米器件研究:探索與低維尺度相關聯的基本物理問題:研究納米結構的尺寸限制效應;場發射特性;發光譜特性;摻雜對納米結構物理性能的影響;利用這些功能納米管、納米線製備納米器件等;

2、科研項目

1. 國家自然科學基金項目:“SnO2納米結構的光學性質研究”;

2. 南京大學固體微結構國家重點實驗室開放課題:“SnO2納米結構的構築及光學性質”;

3. 揚州大學新世紀人才基金項目;

4. 揚州大學高層次人才科研啟動項目:“SnO2基多相光催化劑的構築及其催化性能的研究”;

5. 揚州市-揚州大學科技合作項目:“基於ZnO納米結構的白光LED研究”;

6. 南京大學近代聲學教育部重點實驗室開放課題:“寬禁帶金屬氧化物材料氧缺陷類型相關的聲子特性研究”;

三、研究成果

1、專利技術

發明專利:可控的有序多孔二氧化錫納米結構的製備方法(專利號:ZL2011 1 0064308.9)

發明專利:模板法製備尺寸可控的多孔二氧化錫納米結構(專利號:20131073925.5)

發明專利:一種SnO2基複合可見光光催化劑的製備方法(申請號:201410139748.X)

發明專利:一種高效單相SnO2光催化劑的製備方法(申請號:201610058468.5)

2、獲獎

南京市自然科技論文一等獎;

揚州市自然科技論文三等獎;

揚州大學“科技先鋒”。

3、發表的主要論文

1.H. T. Chen, S. J. Xiong, X. L. Wu, J. Zhu, J. C. Sheng, and Paul K. Chu, Tin oxide Nanoribbons with vacancy structures in luminescence-sensitive oxygen sensing, Nano Lett. 9, 1926 (2009).

2.H. T. Chen, X. L. Wu, W. C. Zhang, J. Zhu, Paul K. Chu, and G. G. Siu, Red photoluminescence mechanism in SnO2 nanostructures, Appl. Phys. A 97, 365 (2009).

3.H. T. Chen, Y. Y. Zhang, X. L. Wu, J. Zhu, Y. C. Cheng, and Paul K. Chu, A novel hydrothermal route to synthesize solid SnO2 nanospheres and their photoluminescence property, Appl. Phys. A 97, 581 (2009).

4.H. T. Chen, X. L. Wu, Y. Y. Zhang, G. G. Siu, and Paul K. Chu, Porous silicon based β-FeSi2 and photoluminescence, Appl. Phys. A 97, 725 (2009).

5.H. T. Chen, X. L. Wu, X. Xiong, W. C. Zhang, L. L. Xu, J. Zhu, and Pau K. Chu, Formation mechanism and photoluminescence of AlN nanowhiskers, J. Phys. D: Appl. Phys. 41, 025101 (2008).

6.H. T. Chen, W. M. Zhou, X. M. Zhou, J. Zhu, L. Fan, and X. B. Chen, Formation of porous SnO2 by anodic oxidation and their optical properties, Chem. Phys. Lett. 515, 269 (2011).

7.H. T. Chen, G. S. Chen, J. Zhu, X. B. Chen, X. H. Zeng, Defect-related energy structures of AlN nanotips probed by photoluminescence, J. Phys. D: Appl. Phys. 44, 505304 (2011).

8.H. T. Chen, Y. P. Hu, X. H. Zeng, Green photoluminescence mechanism in ZnS nanostructures, J. Mater. Sci. 46, 2715 (2011).

9.H. T. Chen, X. M. Zhou, J. Zhu, and X. B. Chen, A novel method to synthesize ordered porous SnO2 nanostructures and their optical properties, Appl. Phys. A 108, 143 (2012).

10.H. T. Chen, D. Zhang, X. M. Zhou, J. Zhu, X. B. Chen, and X. H. Zeng, Controllable construction of ordered porous SnO2 nanostructures and their application in photocatalysis, Mater. Lett. 116, 127 (2014).

11.H. T. Chen, D. Zhang, G. S. Chen, J. Zhu, X. B. Chen, and X. H. Zeng, Controllable synthesis and optical properties of SnO2 core-shell microspheres, Micro & Nnao Letters 9, 243 (2014).

12.L. L. Xu, P. Q. Zhao, X. L. Wu, X. Xiong, G. S. Huang, H. T. Chen, and J. Zhu, Synthesis of ZnO eggshell-like hollow sphere via thermal evaporation at low temperature, J. Phys. D: Appl. Phys. 40(15), 4621 (2007).

13.L. L. Xu, X. L. Wu, X. Xiong, J. Zhu, H. T. Chen, G. S. Huang, and Paul K. Chu, Synthesis and field-emission properties of roselike ZnO nanostructures, Appl. Phys. A: Mater. Sci. Process. 91(2), 247 (2008).

14.X. L. Wu, S. J. Xiong, Y. M. Yang, J. F. Gong, H. T. Chen, J. Zhu, J. C. Shen, and Paul K. Chu, Nanocrystal-induced line narrowing of surface acoustic phonons in the Raman spectra of embedded GexSi1-x alloy nanocrystals, Phys. Rev. B 78(16), 165319 (2008).

15.W. C. Zhang, X. L. Wu, H. T. Chen, J. Zhu, and G. S. Huang, Excitation wavelength dependence of the visible photoluminescence from amorphous ZnO granular films, J. Appl. Phys. 103(9), 093718 (2008).

16.W. C. Zhang, X. L. Wu, H. T. Chen, Y. J. Gao, J. Zhu, G. S. Huang and paul K. Chu, Self-organized formation of silver nanowires, nanocubes and bipyramids via a solvothermal method, Acta Mater. 56(11), 2508 (2008).

17.P. Z. Zhang, M. R. Shen, L. Fang, F. G. Zheng, X. L. Wu, J. C. Shen, H. T. Chen, Pr3+ photoluminescence in ferroelectric (Ba0.77Ca0.23)TiO3 ceramics: sensitive to polarization and phase transitions, Appl. Phys. Lett. 92(22), 222908 (2008).

18.Y. C. Cheng, H. T. Chen, X. L. Wu, J. Zhu, S. H. Li, and Paul K. Chu, Optical and vibrational properties of 2H-, 4H and 6H-AlN: first-principle calculations, J. Appl. Phys. 105(8), 083511 (2009).

19.J. Zhu, H. Wu, H. T. Chen, X. L. Wu, X. Xiong, W. C. Zhang, and L. L. Xu, Tunable violet-blue emission from 3C-SiC nanowires, Phys. Lett. A 373(18-19), 1697 (2009).

20.J. Zhu, X. Xiong, H. T. Chen, X. L. Wu, W. C. Zhang, and Paul K. Chu, Syntheses and growth mechanisms of 3C-SiC nanostructures from carbon and silicon powders, J. Nanosci. Nanotechnol. 9(11), 6648 (2009).

21.J. Zhu, X. Xiong, X. L. Wu, H. T. Chen, W. C. Zhang, and Paul K Chu, Synthesis and characteristics of cubic silicon carbide nanospheres with smooth surfaces, J. Nanosci. Nanotechnol. 9(11), 6643 (2009).

22.Z. Lilu, X. D. Wen, X. L. Wu, Y. J. Gao, H. T. Chen, J. Zhu, and Paul K. Chu, Intrinsic dipole-field-driven mesoscale crystallization of core-shell ZnO mesocrystal microspheres, J. Am. Chem. Soc. 131(26), 9405 (2009).

23.W. C. Zhang, X. L. Wu, C. X. Kan, F. M. Pan, H. T. Chen, J. Zhu, and Paul K. Chu, Surface-enhanced Raman scattering from silver nanostructures with different morphologies, Appl. Phys. A: Mater. Sci. Process. 100(1), 83 (2010).

24.L. Z. Liu, X. L. Wu, T. H. Li, S. J. Xiong, H. T. Chen, and Paul K. Chu, Morphology-dependent low-frequency Raman scattering in ultrathin spherical, cubic, and cuboid SnO2 nanocrystals, Appl. Phys. Lett. 99(25), 251902 (2011).

25.T. H. Li, L. Z. Liu, X. X. Li, X. L. Wu, H. T. Chen, and Paul K. Chu, Oxygen vacancy density-dependent transformation from infrared to Raman active vibration mode in SnO2 nanostructures, Opt. Lett. 36(21), 4296 (2011).

26.J. Zhu, Y. D. Wu, H. T. Chen, X. Xiong, and X. B. Chen, Synthesis, structure and photoluminescence of cubic silicon carbide nanowires, Micro & Nano Lett. 7(9), 974 (2012).

27.C. Hu, X. H. Zeng, J. Y. Cui, H. T. Chen, and J. F. Lu, Size effects of Raman and photoluminescence spectra of CdS nanobelts, J. Phys. Chem. C, 117(40), 20998 (2013).

28.W. Zhang, X. H. Zeng, J. F. Lu, and H. T. Chen, Phase controlled synthesis and optical properties of ZnS thin films by pulsed laser deposition, Mater. Res. Bull. 48(10), 3843 (2013).

29.X. Y. Song, X. X. Wang, X. H. Zeng, Y. Zhang, Y. P. Hu, H. T. Chen, Composition dependent optical properties of Zn1-xCdxS nanostructures, Adv. Mater. Res. 669, 335 (2013).

30.Y. J. Dong, J. B. Zhang, H. T. Chen, and X. H. Zeng, Performance of power omnidirectimal reflector LED,Acta Phys. Sin. 60(7), 077803 (2011).

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