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个人简介

学习经历: 1985.9-1989.6,华中理工大学固体电子学系电子材料与元器件专业,本科学习; 1992.9-1995.6,华中理工大学固体电子学系电子材料与元器件专业,硕士研究生学习; 1996.9-2001.4,华中科技大学电子科学与技术系微电子学与固体电子学专业,在职博士研究生学习; 工作经历: 1989.7-1992.8,南京军区空军后勤部技术副厂长; 1995.7-1996.8,华中理工大学固体电子学系讲师; 1996.9-2001.4,华中科技大学电子科学与技术系,讲师、副教授; 2001.5-2002.8,国家发展改革委员会高技术产业发展司工作(借调),协助开展国家高技术产业化项目的组织、实施、管理工作; 2002.9至今:华中科技大学电子科学与技术系副教授、教授、博士生导师,华中科技大学光学与电子信息学院电子科学系主任,华中科技大学光学与电子信息学院教学指导委员会副主任,教育部敏感陶瓷工程研究中心支部书记、副主任,电子信息功能材料教育部重点实验室副主任。

研究领域

信息功能陶瓷材料与器件,聚合物基柔性复合材料与器件,新型光电功能材料与器件。

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

[1] He J. G., Luo M., Hu L., Zhou Y. L., Jiang S. L.*, Song H. S., Ye R., Chen L., Gao L., Tang J.*, Flexible lead sulfide colloidal quantum dot photodetector using pencil graphite electrodes on paper substrates, Journal of Alloys and Compounds, 596, 73-78, 2014 [2] Zhang G. Z., Liu S. S., Yu Y.*, Jiang S. L.*, Zeng Y. K., Zhang Y. Y., Hu X., Microstructure and electrical properties of (Pb0.87Ba0.1La0.02)(Zr0.68Sn0.24Ti0.08)O3 anti-ferroelectric ceramics fabricated by the hot-press sintering method, Journal of the European Ceramics Society, 33(1), 113-121, 2013 [3] Zhang Q. F.*, Zhang Y. Y., Yang T. Q., Jiang S. L., Wang J. F., Chen S. C., Li G., Yao X., Effects of glass additions on high pyroelectric response of low-temperature, Materials Research Bulletin, 48(3), 1324-1327, 2013 [4] Zhang Q. F.*, Chen S. C., Fan M. Y., Jiang S. L., Yang T. Q., Wang J. F., Li G., Yao X., Large electric-induced pyroelectric properties in Mn-doped (Pb0.87La0.02Ba0.1)(Zr0.75Sn0.16Ti0.09)O3 ceramics, Journal of Alloys and Compounds, 547(15), 29-32, 2013 [5] Zhang Q. F.*, Fan M. Y., Jiang S. L., Yang T. Q., Wang J. F., Yao X., High pyroelectric response of low-temperature sintered Pb0.87Ba0.1La0.02(Zr0.7Sn0.24Ti0.06)O3antiferroelectric ceramics, Journal of Alloys and Compounds, 551(25), 279-285, 2013 [6] Zeng Y. K., Yao F., Zhang G. Z.*, Jiang S. L.*, Liu S. S., Yu Y., He J. G., Yi J. Q., Effects of Bi2O3–Li2CO3 additions on dielectric and pyroelectric properties of Mn doped Pb(Zr0.9Ti0.1)O3 thick films, Ceramics International, 39(4), 3709-3714, 2013 [7] Yu Y., Jiang S. L.*, Zhou W. L., Miao X. S., Zeng Y. K., Zhang G. Z., Liu S. S., Room temperature rubbing for few-layer two-dimensional thin flakes directly on flexible polymer substrates, Scientific Reports, 3, 2697, 2013 [8] Yu Y., Jiang S. L.*, Zhou W. L.*, Miao X. S., Zeng Y. K., Zhang G. Z., He J. G., Yi J. Q., Liu W., Surface fractal evolution induced rubbing for rapid room temperature and transfer-free fabrication of graphene on flexible polymer substrate, Applied Physics Letters, 103(1), 011601, 2013 [9] Wang J.*, Jiang S. L.*, Jiang D., Tian J. J., Li Y. L., Wang Y., Microstructural design of BaTiO3-based ceramics for temperature-stable multilayer ceramic capacitors, Ceramics International, 38(7), 5853-5857, 2012 [10] Zhang Q. F.*, Fan M. Y., Jiang S. L., Yang T. Q., Yao X., Enhanced antiferroelectric and electric-induced pyroelectric properties of Mn-substitued (Pb0.832Ba0.138La0.02)(Zr0.7Ti0.05Sn0.25)O3 ceramics, Applied Physics Letters, 101(6), 062906, 2012 [11] Zhang Q. F., Jiang S. L.*, Yang T. Q., Pyroelectric, dielectric, and piezoelectric properties of MnO2-doped (Na0.82K0.18)0.5Bi0.5TiO3 lead-free ceramics, Journal of Electroceramics, 29(1), 8-11, 2012 [12] Zhang Q. F.*, Chen S. C., Fan M. Y., Jiang S. L., Yang T. Q., Wang J. F., Li G., Yao X., High pyroelectric response of Lead zirconate stannate titanate based antiferroelectric ceramics with low Curie temperature, Materials Research Bulletin, 47(12), 4503-4509, 2012 [13] Yu Y., Jiang S. L.*, Zhang G. Z.*, Zhou W. L., Miao X. S., Zeng Y. K., Wang J, He J. G., Zhang L., Universal ultrafast sandpaper assisting rubbing method for room temperature fabrication of two-dimensional nanosheets directly on flexible polymer substrate, Applied Physics Letters, 101(7), 073113, 2012 [14] Yu Y., Jiang S. L.*, Zhou W. L., Miao X. S., Zeng Y. K., Zhang G. Z., Zhang Y. Y., Zhang Q. F., Zhao H., Ultrafast room temperature wiping-rubbing fabrication of graphene nanosheets as flexible transparent conductive films with high surface stability, Applied Physics Letters, 101(1), 023119, 2012 [15] Zhang Q. F., Jiang S. L.*, Zeng Y. K., Fan M. Y., Wang Q. P., Zhang G. Z., Zhang Y. Y., Yu Y., Wang J., Large pyroelectric response in (Pb0.87La0.02Ba0.1)(Zr0.7Sn0.3-xTix)O3antiferroelectric ceramics under DC bias field, Applied Physics A-Materials Science and Processing, 103(4), 1159-1163, 2011 [16] Zhang Q. F., Jiang S. L.*, Zeng Y. K., Dielectric and electric field-induced pyroelectric behavior of (Pb0.87-0.07xBa0.10+0.07x)La0.02(Zr0.7Sn0.15Ti0.15)O3 ceramics, Journal of Materials Research, 26(11), 1436-1440, 2011 [17] Zhang Q. F.*, Jiang S. L., High pyroelectric properties of (Pb0.87La0.02Ba0.1)(Zr0.75Sn0.25-xTix)O3 ceramics near AFE/RFE phase boundary under DC bias field, Journal of Materials Research, 26(11), 1441-1445, 2011 [18] Zhang H. B.*, Jiang S. L., Kajiyoshi K., Enhanced pyroelectric and piezoelectric figure of merit of porous Bi0.5(Na0.82K0.18)0.5TiO3 Lead-free ferroelectric thick films, Journal of the American Ceramics Society, 93(7), 1957-1964, 2010 [19] Zhang H. B.*, Jiang S. L., Kajiyoshi K., Preparation and characterization of sol-gel derived sodium-potassium bismuth titanate powders and thick films deposited by screen printing, Journal of Journal of Alloys and Compounds, 495(1), 173-180, 2010 [20] Zhang H. B.*,Jiang S. L., Kajiyoshi K., Xiao J. Z., Dielectric, ferroelectric, pyroelectric, and piezoelectric properties of La-modified Lead-free sodium-potassium bismuth titanate thick Films, Journal of the American Ceramics Society, 93(3), 750-757, 2010

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