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曾祥华
发布日期:2014-11-04浏览次数:字号:[ ]

 

博士生导师 ——曾祥华(Xianghua Zeng)

 

 

联系方式:

电话:0514-87975500

邮箱:xhzeng@yzu.edu.cn

地址:扬州市四望亭路180号,扬州大学物理科学与技术学院,物理楼219#。

邮编:225002.

 

一、导师简历:

    1.教育经历

    1996.8-1999.6中国科学院近代物理所, 获粒子物理与原子核物理专业博士学位;

    1990.8-1994.2中国科学院近代物理所, 获原子核物理专业硕士学位;

    1983.8-1987.6兰州大学数力系计算数学专业, 获理学学士学位。

    2. 工作经历

    2003.8-至今扬州大学教授

    1999.7-2003.8 扬州大学副教授

    1997.2-1999.7中国科学院近代物理所, 副研究员

    1987.6-1997.2中国科学院近代物理所, 研实员, 助研

  期间:

    1997.10-1998.10 德国慕尼黑科技大学和德国重离子研究所GSI 访问学者

    2004.1-2004.4  加拿大多伦多大学高等纳米研究中心(Energenius Centre for Advanced Nanotechnology, Toronto University) 访问学者

    3. 兼任主要社会职务:

    扬州大学物理科学与技术学院院长,江苏省物理学会常务理事,江苏省半导体照明产业技术创新战略联盟副理事长;江苏省高等学校实验教学与实践教育中心—扬州大学光电技术综合训练中心(http://wlsyzx.yzu.edu.cn/ele/gdsjzx/)负责人,江苏省物理学类重点专业负责人。扬州大学光学工程专业学位硕士点负责人, 扬州大学光电材料与应用研究所所长。

 

二、研究领域:

  1、研究方向:

  低维结构材料的制备、微结构、光电特性研究及其应用

  2、研究内容

  低维结构材料的量子限制效应与表面效应,以及结构、形貌、界面对电-声子耦合的影响;低维结构材料的可控制备,高性能光电器件的设计。

 

  研究生招生:

    学术性:物理学—光电材料方向

    专业学位:光学工程—光电材料与器件研究方向

   

    江苏省优秀硕士论文:

  1)“ZnS:Mn一维超晶格纳米材料的制备及其光学性能的研究”,研究生:卢俊峰,微电子学与固体电子学专业,获2014年度江苏省优秀硕士论文。

  2)“用TDDFT方法模拟氢原子、氢分子和氮分子高次谐波的产生”,研究生:崔磊,凝聚态物理专业,获得2008年江苏省优秀硕士论文。

  3、目前承担项目:

  1)面向超高能效的低维氮化物发光器件与载流子输运机制研究 (2017YFB0403101), 201707-202012, 国家重点研发计划“战略性先进电子材料”专项子课题,65万元, 负责人。

  2)硫化锌/硫化镉低维量子结构的激子-声子耦合及其对发光性质的影响(61474096), 2015.1-2018.12, 国家自然科学基金,82万元, 负责人:曾祥华

 

三、研究成果

 

专利技术:

  [1]周敏;陆飞;曾祥华,一种超级电容器用三维纳米结构NiCo2S4电极材料及其制备方法, 2016/1/13, 江苏, CN201510709791. X.

  [2]朱骏;胡珊;陈海涛;夏炜炜;曾祥华,发光非晶碳化硅纳米颗粒的制备方法, 2016/1/13, 江苏, CN201510583991. 5.

  [3]刘红飞;张志萍;杨露;马健;曾祥华;陈小兵,一种负热膨胀陶瓷材料ScxIn2-xW3O12及其制备方法, 2016/1/20, 江苏, CN201510632044. 0.

  [4]张志萍;刘红飞;杨露;潘坤旻;曾祥华;陈小兵,一种负热膨胀材料Sc2W3O12薄膜的制备方法 , 2016/1/27, 江苏, CN201510632802. 9.

  [5]刘红飞;张志萍;杨露;潘坤旻;曾祥华;陈小兵,一种负热膨胀材料Y2W3O12薄膜的制备方法,2016/2/17, 江苏, CN201510632801. 4.

  [6]何辉;王海波;李凯;董晶;曾祥华,一种在单层石墨烯膜上可控生长纳米结构的普适方法,2015/3/25, 江苏, CN201410667089. 7.

  [7]陈海涛;张丹;周旭明;朱骏;陈小兵;曾祥华,模板法制备尺寸可控的多孔二氧化锡纳米结构,2014/4/23, 江苏, CN201310739625. 5.

  [8]陈海涛;张晨琪;张丹;朱骏;曾祥华,一种SnO2基复合可见光光催化剂的制备方法,2014/6/18, 江苏, CN201410139748. X.

  [9]曾祥华;张伟,一种低温制备六方相ZnS薄膜的工艺方法, 2013/4/24, 江苏, CN201310026478. 7.

  [10]曾祥华;卢俊峰, ZnS一维纳米同质超晶格结构的制备方法, 2013/1/16, 江苏, CN201210388122. 3.

  [11]何辉, 王海波, 李凯, 董晶, 曾祥华,一种在石墨烯片上可控制备纳米颗粒的普适方法,中国专利, 授权, CN201410667467. 1

  [12]梅超, 夏炜炜, 曾祥华(*),一种金包裹氧化锌花状微米球的制备方法,中国专利, 授权, CN201510040445. 7

  [13]夏炜炜, 王海波, 曾祥华, 一种异质结构光催化剂的制备方法, 中国专利, 授权, CN201410139856. 7. 2015/12/30.

   

2012年以来发表的主要论文:(*为通讯作者)

  1.Fei Lu, Min Zhou*, Yuxue Zhou, and Xianghua Zeng*, First-Row Transition Metal Based Catalysts for the Oxygen Evolution Reaction under Alkaline Conditions: Basic Principles and Recent Advances, Small 2017, 1701931(pp18), DOI: 10. 1002/smll. 201701931.

  2.Jianguo Zhao, Xiong Zhang*, Zili Wu, Lili Feng, Liwen Cheng, Xianghua Zeng, Guohua Hu, Yiping Cui, Enhanced performance of GaN-based light-emitting diodes with composite electron blocking layer, Optik 136 (2017) 558–563.

  3.Jin-Peng Yang, Lin-Tai Shang, Fabio Bussolotti, Li-Wen Cheng, Wen-Qing Wang, Xiang-Hua Zeng, Satoshi Kera, Yan-Qing Li, Jian-Xin Tang, Nobuo Ueno, Fermi-level pinning appears upon weak electrode-organic contact without gap states: A universal phenomenon, Organic Electronics 48 (2017) 172-178

  4. Jin-Peng Yang, Wen-Qin Wang, L. T Shang, L. W. Cheng, X. S. Shen, X. H. Zeng, Y. Q. Li J. X. Tang, Dynamic processes of charges generation in intermediate connectors for tandem organic light emitting diodes, ORGANIC ELECTRONICS , 46 (2017) 145-149.

  5.Weiwei Xia, Haoyu Qian, Xianghua Zeng*, Jing Dong, Juan Wang, Qin Xu, Visible-light Self-powered Photodetector and Recoverable Photocatalyst Fabricated from Vertically Aligned Sn3O4 Nanoflakes on Carbon Paper, J. Phys. Chem. C 2017, DOI: 10. 1021/acs. jpcc. 7b05520.

  6.Weiwei Xia, Wanrong Li, Xianghua Zeng*, Dan Shan, Junfeng Lu, Guoqing Wu, Jing Dong, Min Zhou, Interconnected SnO2 Microsphere Films and their Improved Ultraviolet Photodetector Properties, Journal of Elec Materi, 2017, DOI 10. 1007/s11664-017-5711-6.

  7.J. Dong, X. H. Zeng*, W. W. Xia, X. Y. Zhang, M. Zhou, Ferromagnetic Behavior of Nonstoichiometric ZnS Microspheres with a Nanoplate Netted Surface, RSC Adv. , 7 (2017) 20874–20881, DOI: 10. 1039/c7ra02521a.

  8.Min Zhou, Qunhong Weng, Xiuyun Zhang, Xi Wang, Yanming Xue, Xianghua Zeng,Yoshio Bando, and Dmitri Golberg, In situ electrochemical formation of core – shell nickel – iron disulfide and oxyhydroxide heterostructured catalysts for a stable oxygen evolution reaction and the associated mechanisms, J. Mater. Chem. A, 2017, 5, 4335–4342.

  9.Chao Mei,Yanshuang Pan, Hui Sun, Xiaoshuang ShenXun Hong, Hui He and  Xianghua Zeng*, Preparation and optical, nanomechanical, negative thermal expansion properties of Sc2W3O12 thin film grown by pulsed laser deposition Structure competition and evolution in minimum-energy nanoparticle clusters, CrystEngComm, 2016,18, 6566-6572.

  10.Jin-Peng Yang,Wen-Qing Wang, Fabio Bussolotti, Li-Wen Cheng,Yan- Qing Li, Satoshi Kera, Jian-Xin Tang, Xiang-Hua Zeng, Nobuo Ueno, Quantitative Fermi level tuning in amorphous organic semiconductor by molecular doping: Toward full understanding of the doping mechanism, Appl. Phys. Lett. 109, 093302 (2016).

  11.F. Lu, M. Zhou*, W. R. Li, Q. H. Weng, C. L. Li, Y. M. Xue, X. F. Jiang, X. H. Zeng*, Y. Bando, D. Golberg*, Engineering sulfur vacancies and impurities in NiCo2S4 nanostructures toward optimal supercapacitive performance, Nano Energy 26 (2016) 313–323

  12.Weiwei Xia, Chao Mei, Xianghua Zeng*, Shuai Chang, Guoqing Wu, Xiaoshuang Shen, Mesoporous Multi-shelled ZnO Microspheres for the Scattering Layer of Dye Sensitized Solar Cell with a High Efficiency, Appl. Phys. Lett. 108, 113902 (2016); doi: 10. 1063/1. 4944532 (5 pages)

  13.Hui He*, Haibo Wang, Kai Li, Jun Zhu, Jianshuang Liu, Xiangdong Meng, Xiaoshuang Shen, Xianghua Zeng*, Weiping Cai, Green and Tunable Decoration of Graphene with Spherical Nanoparticles Based on Laser Ablation in Water: A Case of Ag Nanoparticle/Graphene Oxide Sheet Composites, Langmuir 32, 1667−1673(2016).

  14.H. He*, K. Li, J. Dong, J. Xia, Y. Zhang, T. H. Yang, X. L. Zhao, Q. L. Huang, X. H. Zeng*, Mesoporous Au nanotube-constructed three dimensional films with excellent SERS performance based on the nanofiber template-displacement reaction strategy, RSC Avances, 2016, 6, 4429-4433.

  15.G. Q. Wu*, X. S. Ye, X. H. Zeng*, B. Wu, W. G. Clark, Direct observation of charge state in the quasi-one-dimensional conductor Li0. 9Mo6O17, Scientific Report, 6, 20721 (2016). (12 pages)

  16.G. Q. Wu*, X. S. Ye, X. H. Zeng*, B. Wu, W G Clark, Investigation of the magnetic dipole field at the atomic scale in quasi-one-dimensional paramagnetic conductor Li0. 9Mo6O17, J. Phys. : Condens. Matter 28 (2016) 015003 (13 pages)

  17.Jin-Peng Yang,Wen-Qing Wang,Li-Wen Cheng,Yan-Qing Li, Jian-Xin Tan, Satoshi Kera, Nobuo Ueno, Xiang-hua Zeng, Mechanism for doping induced p type C60 using thermally evaporated molybdenum trioxide (MoO3 ) as a dopant, J. Phys. : Condens. Matter 28 (2016) 185502 (6pp)

  18.Xiangdong Meng,Yuxue Zhou, Xianghua Zeng, Xiaobing Chen, Bright green emission and temperature dependent localized bound exciton transitions from undoped ZnO films, CERAMICS INTERNATIONAL, 42(12)2016 13819-13823.

  19.Hongfei Liu, Lu Yang, Zhiping Zhang, Kunmin Pan, Fang Zhang, Honghui Cheng, Xianghua Zeng, Xiaobing Chen, Quantitative Fermi level tuning in amorphous organic semiconductor by molecular doping: Toward full understanding of the doping mechanism, Ceramics International, Volume 42, Issue 7, 15 May 2016, Pages 8809–8814.

  20.H. B. Wang, X. H. Zeng*, W. W. Xia, X. Zhou, M. Zhou, X. S. Shen, Nanosheet-built tin-oxides hollow microsphere and their phase transition with an annealing treatment, Mater. Res. Bull. 70 (2015) 697–703.

  21.X. H. Zeng*, S. J. Yan, J. Y. Cui, H. F. Liu, J. Dong, W. W. Xia, M. Zhou, H. T. Chen, Size- and morphology-dependent optical properties of ZnS:Al one-dimensional structures, J Nanopart Res (2015) 17:188(1-11).

  22.W. W. Xia, C. Mei, X. H. Zeng*, G. K. Fan, J. F. Lu, X. D. Meng, X. S. Shen, Nanoplate-Built ZnO Hollow Microspheres Decorated with Gold Nanoparticles and Their Enhanced Photocatalytic and Gas-Sensing Properties, ACS Appl. Mater. Interfaces 7 (2015) 11824−11832.

  23.Xiao-Shan Ye, Yongjun Liu, Xiang-Hua Zeng, Guo-Qing Wu, Topological phase transition in quasi-one dimensional organic conductors. Sci. Rep. 5, 17358; doi: 10. 1038/srep17358 (2015).

  24.Shen XS, Mei C, He, H, Zhou M, Xia WW,Zeng, XH, Spontaneous structure transition in nanoparticle aggregates: from amorphous clusters to supercrystals, CRYSTENGCOMM, 17(25) (2015)4637-4641, DOI: 10. 1039/c5ce00896d.

  25.Min Zhou, Fei Lu, Bei Chen, Xuying Zhu, Xiaoshuang Shen, Weiwei Xia, Hui He, Xianghua Zeng, Thickness dependent complex permittivity and microwave absorption of NiCo2O4 nanoflakes, Materials Letters 159 (2015) 498–501.

  26.M. Zhou, F. Lu, X. S. Shen, W. W. Xia, H. He, X. H. Zeng*, One-pot construction of three dimensional CoMoO4/Co3O4 hybrid nanostructures and their application in supercapacitors, J. Mater. Chem. A 3 (2015) 21201–21210.

  27.H. HeH. Q. Li, W. W. Xia, X. S. Shen, M. Zhou, J. R. HanX. H. Zeng*, W. P. Cai, Electrophoretic fabrication of silver nanostructure/zinc oxide nanorod heterogeneous arrays with excellent SERS performance, J. Mater. Chem. C, 2015, 3, 1724-1731.

  28.M. Zhou, F. Lu, T. Y. Lv, X. Yang, W. W. Xia, X. S. Shen, H. He, X. H. Zeng, Loss mechanism and microwave absorption properties of hierarchical NiCo2O4 Nanomaterial, J. Phys. D: Appl. Phys. 48 (2015) 215305 (7pp).

  29.Min Zhou*, Fei Lu, Bitao Liu, Jie Yang and Xianghua Zeng, Electrospun SnO2 submicron fibers for broadband microwave absorption, J. Phys. D: Appl. Phys. 48 (2015) 495303.

  30.H. He, J. Dong,K. Li, M. Zhou,W. W. Xia, X. S. Shen, J. R. Han, X. H. Zeng, W. P. Cai, Quantum dot-assembled mesoporous CuO nanospheres based on laser ablation in water, RSC ADVANCES, 5(25)(2015)19479-19483.

  31.Liu, HF (Liu, Hongfei), Zhang, ZP (Zhang, Zhiping), Pan, KM (Pan, Kunmin), Ma, J (Ma, Jian), Yang, L (Yang, Lu), Zeng, XH (Zeng, Xianghua), Effects of substrate temperature and oxygen pressure in pulsed laser deposited ZrW1. 5Mo0. 5O8 thin films, CERAMICS INTERNATIONAL, 41(9)(2015) 11918-11921 子辑: B DOI: 10. 1016/j. ceramint. 2015. 05. 159.

  32.J. P. Yang,F. Bussolotti, Y. Q. Li, X. H. Zeng, S. Kera, J. X. Tang, N. Ueno,The role of gap states on energy level alignment at an alpha-NPD/HAT(CN)(6) charge generation interface, Organic Electronics, 24(2015)120-124. DOI: 10. 1016/j. orgel. 2015. 05. 033.

  33.Zhou, Yu-Xue; Tong, Ling; Zeng, Xiang-Hua; Chen, Xiao-Bing, Fe3O4@Bi2WO6 Core–Shell Structured Microspheres: Facile Construction and Magnetically Recyclable Photocatalytic Activity Under Visible-Light, Journal of Nanoscience and Nanotechnology, Volume 15, Number 12, December 2015, pp. 9868-9873(6).

  34.Xin Zhou, Xianghua Zeng*, Xiaoqing Yan, Weiwei Xia, Yuxue Zhou, Xiaoshuang Shen, Shape- and phase-controlled ZnS nanostructures and their optical properties, Materials Research Bulletin 59 (2014) 25–31 .

  35.W. W. Xia*, H. B. Wang, X. H. Zeng*, J. Han, J. Zhu, M. Zhou, S. D. Wu, High Efficiency Photocatalytic Activity of Type-II SnO/Sn3O4 Heterostructures via Interfacial Charge Transfer, CrystEngComm, 2014, 16 (30), 6841 - 6847.

  36.Y. X. Zhou*, L. Tong, X. H. Zeng, X. B. Chen, Green synthesis of flower-like Bi2WO6 microspheres as a visible-light-driven photocatalyst, NEW JOURNAL OF CHEMISTRY, 38(2014) 5, 1973-1979.

  37.Weiwei Xia*, Jun Zhu, Haibo Wang, Xianghua Zeng*, Effect of Catalyst Shape on Etching Orientation 1 in Metal-assisted Chemical Etching of Silicon, CrystEngComm, 2014, 16, 4289- 4297, DOI: 10. 1039/C4CE00006D.

  38.Yu-Xue Zhou, Ling Tong, Xiao-Bing Chen, Xiang-Hua Zeng,Ethylene glycol-assisted solvothermal fabrication of ZnWO4 nanostructures with tunable size, optical properties, and photocatalytic activities, Applied Physics A,November 2014, Volume 117, Issue 2, pp 673-679.

  39.S. C. Wang, X. Zhang, H. Guo, H. Q. Yang, M. Zhu, L. W. Cheng, X. H. Zeng, Y. P. Cui, Enhanced performance of GaN-based light-emitting diodes by using a p-InAlGaN/GaN superlattice as electron blocking layer, Journal of Modern Optics, DOI:10. 1080/09500340. 2013. 873086.

  40.X. H. Zeng*, C. Hu, M. Zhou, W. W. Xia, X. D. Meng, Enhanced Raman Spectroscopy Induced by Surface Defects in Ripple-like CdS Microbelts, Appl. Phys. Lett. , 104, 081609(1-5), 2014.

  41.X. H. Zeng*,W. Zhang, J. Y. Cui, M. Zhou, H. T. Chen, Charge transfer and optical properties of wurtzite-type ZnS/(CdS/ZnS)n (n=2, 4, 8) superlattices, Mater. Res. Bull. , 50, 359–364, 2014.

  42.J. Y. Cui, X. H. Zeng*, M. Zhou, C. Hu, W. Zhang, J. F. Lu, Tunable blue and orange emissions of ZnS:Mn thin films deposited on GaN waffer by pulsed laser deposition, J. Lumin. , 147(2014)310–315.

  43.C. Hu, X. H. Zeng*, J. Y. Cui, H. T Chen, J. F. Lu, Size Effects of Raman and PL Spectra of CdS Nanobelts, J. Phys. Chem. C. 117(2013) 20998−21005, dx. doi. org/10. 1021/jp407272u.

  44.W. Zhang, X. H. Zeng *, J. F. Lu, H. T Chen, Phase controlled synthesis and optical properties of ZnS thin films by pulsed laser deposition, Materials Research Bulletin 48 (2013) 3843–3846

  45.W. Zhang, X. H. Zeng*, H. F Liu, J. F Lu, Synthesis and investigation of blue and green emissions of ZnS ceramics, J. Lumin. 134 (2013) 498–503.

  46.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, Advanced Materials Research, Vol. 669 (2013) 335-339, doi:10. 4028/www. scientific. net/AMR. 669. 335.

  47.J. F. Lu, X. H. Zeng*, H. F. Liu, W. Zhang, Y. Zhang, J. Y Cui, Effects of Au catalysts for synthesis of ZnS microstructures on the sapphire substrate, Material Letter, 93 (2013) 337–340. .

  48.X. Y. Song, X. H. Zeng*, J. B. Zhang, Y. Z. Jin, X. D. Meng, Optoelectronic Properties of GaN-Based Light-Emitting Diodes with different Mesa Structures, doi:10. 4236/msa. 2012. 312122, Materials Sciences and Applications, 2012, 3, 838-842 .

  49.J. F. Lu, X. H. Zeng*, H. F Liu, W. Zhang, Y. Zhang, Preparation and PL of (3C-ZnS)/(2H-ZnS) Superlattice in Mn -doped ZnS Nanoribbons, J. Phys. Chem. C 2012, 116, 23013-23018.

  50.J. F Lu, X. H. Zeng*, H. F Liu, W. Zhang, Y. Zhang, Controlled growth and photoluminescence of one-dimensional and platelike ZnS nanostructures, Appl. Surf. Scien. 258 (2012) 8538–8541.

  51.Haitao Chen,Yipei Hu,Xianghua Zeng,Mechanism in ZnS nanostructures, Jounal of Materials Science, 46 (2011)2715-2719.    (SCI)

  52.Y. Liang*, X. H. Zeng, L. X. Guo, Z. S. Wu, AN INVESTIGATION ON NUMERICAL CHARACTERIZATION OF SCATTERING FROM TARGET IN A DIELECTRIC ROUGH SOIL SURFACE, PROGRESS IN ELECTROMAGNETICS RESEARCH-PIER, 139卷, (2013) 423-444, 2013.

  53.H. F. Liu*, Z. P. Zhang, W. Zhang, X. H. Zeng, X. B. Chen, Synthesis and negative thermal expansion property of Y2-xLaxW3O12, CERAMICS INTERNATIONAL, 39(3), pp 2781-2786, 2013/4. 期刊论文, 1. 789(2012)  

  54.Y. X. Zhou*, L. Tong, X. B. Chen, X. H. Zeng, Fe3O4-ZnWO4 hybrid microspheres: facile synthesis and magnetically recyclable photocatalytic performance, MICRO & NANO LETTERS, 8(1), pp 32-34, 2013/1. 期刊论文, 0. 845(2012)  

 




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