个人简介
教育背景
1982.09 – 1986.07 浙江大学 材料科学与工程专业 学士学位;
1986.09 – 1989.07 中科院上海光机所 材料科学与工程学 硕士学位;
1995.09 – 1998.07 美国Alfred大学 陶瓷工程学 博士学位;
2002 美国Marquette大学 MBA。
工作履历
1989.08 – 1992.01 国嘉光电有限公司 研发工程师;
1992.01 – 1995.02 国嘉光电有限公司 厂长助理;
1998.07 – 2001.12 美国密尔沃基通用电气医疗公司 高级工程师;
2001.12 – 2008.12 美国密尔沃基通用电器医疗公司 项目经理;
2009.01 – 2012.04 美国密尔沃基通用电器医疗公司 探测器材料首席工程师;
2010.05 – 2012.04 美国密尔沃基通用电器医疗公司 安检CT探测器部经理;
2012年5月以“旗舰人才”计划引进加入中科院宁波材料技术与工程研究所,担任光电功能材料及器件团队负责人。
研究概况
在全球顶尖的医疗设备开发商GE公司供职近15年,全面领导开发了当今世界上最先进的宝石CT产品,并成功实现产业化;先后获GE公司的Whitney技术成果奖以及2010年度美国陶瓷协会的工业技术成果奖。
领导(参与)过的项目:
第二代宝石探测器材料的研发,GE新产品研发 500万美元 2009至今;
光子技术探测器和材料,GE新产品研发 300万美元 2011.01 - 2011.12;
新一代安检CT探测器,Mophor Detection Inc. 资助,250万美元 2010.05 - 2011.04;
宝石CT探测器和材料的研发,GE新产品研发,5000万美元 2001.12 - 2008.12;
64排CT探测器产品的研发,GE新产品研发,2000万美元 2004.01 - 2005.12;
16排CT探测器产品的研发,GE新产品研发,1500万美元 2001.10 - 2003.06;
闪烁体陶瓷的生产技术改进GE公司内部资助,50万美元 2000.01-2001.06。
申请专利:
1.Haochuan Jiang, David M. Hoffman, 2002-11-12, Apparatus and method of Converting electromagnetic energy directly to electrons for computed tomography imaging, US 6,480,562 B2, 美国
2.David M. Hoffman, Haochuan Jiang, 2002-11-12, System and Method of aligning scintillator crystalline structures for computed tomography imaging, US 6,480,563 B2, 美国
3.Haochuan Jiang, 2002-12-24, System and Method of Computer Tomography Imaging Using a Cerium Doped Lutetium Orthosilicate Scintillator, US 6,498,828 B2, 美国
4.David M. Hoffman, Haochuan Jiang, 2004-03-09, System and Method of Aligning Scintillator Crystalline Structures for Computed Tomography Imaging, US 6,704,391 B2, 美国
5.David Gerard Mliner, Haochuan Jiang, Richard Louis Hart, Chang Wei, Jaime Andres Echeverry, 2005-05-24, Scintillator Arrays for Radiation Detectors and Methods of Manufacture, US 6,898,265 B1, 美国
6.Haochuan Jiang, David M. Hoffman, James S. Vartuli, 2006-05-30, CT Detector Array Having Non Pixelated Scintillator Array, US 7,054,408 B2, 美国
7.Haochuan Jiang, David Michael Hoffman, 2007-01-23, Scintillator Array for Use in A CT Imaging System and Method For Making The Scintillator Array, US 7.166.849 B2, 美国.
8.Haochuan Jiang, David M. Hoffman, James S. Vartuli, 2007-05-29, CT Detector Array Having Non-Pixelated Scintillator Array, US 7,224,766 B2, 美国
9.Haochuan Jiang, David Michael Hoffman, 2007-10-16, Compositions and Methods for Scintillator Arrays, US 7,282,713 B2, 美国
10. Haochuan Jiang, David M. Hoffman, 2007-12-11, Multi-Layer Reflector For CT Detector, US 7,308,074 B2, 美国
11. Haochuan Jiang, David Michael Hoffman, 2008-10-28, X-ray Detector Fabrication Methods and Apparatus Therefrom, US 7,442,938 B2, 美国
12. Haochuan Jiang, David M. Hoffman, James S. Vartuli, 2010-01-05, CT Detector Array Having Non-pixelated Scintillator Array, US 7,643,607 B2, 美国
13. Jiang Haochuan, 2010-07-08, Method of Making a Post-Patent Collimator Assembly, US 7,730,748 B2, 美国
14. Haochuan Jiang, 2011-08-30, X-Ray Detector Fabrication Methods And Apparatus Therefrom, US 8,008,624, B2, 美国
15. Haochuan Jiang, 2013-01-29, X-Ray Detector Fabrication Methods And Apparatus Therefrom, US 8,362,433 B2, 美国
16.Zhaoping Wu, Haochuan Jiang, Joseph James Lacey, James S. Vartuli, Yuefeng Sun, Qun Deng, Xiaoye Wu, Kun Tao, Zhaohui Yang, 2D Reflector and Collimator Structure and Method of Manufacturing Thereof, US 8,385,499 B2, 美国
研究领域
闪烁体材料与器件、半导体直接转换探测器材料与器件等。
近期论文
查看导师新发文章
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1)Zhaohua Luo, Haochuan Jiang*, Jun Jiang, “Synthesis of Cerium-Doped Gd3(Al,Ga)5O12 Powder for Ceramic Scintillators with Ultrasonic-Assisted Chemical Coprecipitation Method”, Journal of the American Ceramic Society, 2013, 96, 10, 3038-3041.
2)Shenghui Yang, Yan Sun, Ye Zhang, Zhaohua Luo, Jun Jiang, Haochuan Jiang. The effects of cation concentration in the salt solution on the cerium doped gadolinium gallium aluminum oxide nanopowders prepared by a co-precipitated method. IEEE Trans. Nucl. Sci.( Accepted)
3)Yan Sun, Shenghui Yang, Ye Zhang, Jun Jiang, Haochuan Jiang. Co-precipitation Synthesis of Gadolinium Aluminum Gallium Oxide (GAGG) via Different Precipitants. IEEE Trans. Nucl. Sci. (Accepted)
4)Q. Yang, H. P. Xia*, and H. C. Jiang , “Fabrication of Nano- Hydroxyapatite Using a Novel Ultrasonic Atomization Precipitation Method”, Journal of Nanoscience and Nanotechnology, 10(3) 2213-2218, 2010.
5)W. W. Zhang, E. Tkaczyk, K. Andreini, S. Hayashi, N. Garg, P. Bednarczyk, H. Jiang, “Process competition in the micromachining of brittle components”, 4th Pacific International Conference on Applications of Lasers and Optics, PICALO 2010, March 23, 2010 - March 25, 2010.
6)L. Zhang, H. P. Xia, Q. Yang, D. J. Wang and H.C. Jiang, “Preparation and characterization of Y3Al5O12:Ln(Ln=Eu,Ce) phosphor powders by ultrasonic atomization and co-precipitation process”, Journal of Rare Earths, 2010.
7)J. Cui*, K. Andreini, Tkaczyk, J. Eric; N. Garg, S. Hayashi, W. W. Zhang, M. Yamada, H.C. Jiang, G. Schweinert, Chen, Henry; G. Bindley, “CZT sub-surface damage assessment using electrical leakage measurements”,IEEE Nuclear Science Symposium Conference Record, pp. 1653-1657, 2009.
8)H. C. Jiang*, W. LaCourse, “Effects of Atmospheres on Volatilisation and Surface Tension”, Ceramic Transaction, Vol. 82, pp. 233-238, 1998.
9)H. C. Jiang* and W. C. LaCourse, “Redox Reactions and Foaming Behavior in Glass Melts”, In Electrochemistry of glass and ceramics, edited by S.K. Sundaram, et al, American Ceramic Society, pp73, 1998.
10) H. Jiang* and W. C. LaCourse, “Nitridation of Bioresorbable Phosphate Glass”, MRS Proceedings (1996), pp455-501, 1996.
11) 江浩川*, 干福熹, 孙洪维, “CdCl2-PbCl2-KCl(BaCl2)和 BiCl3-KCl-As2S3 系统玻璃化学稳定性的研究”,无机材料学报6 (03) 1991.
12) 江浩川*, 孙洪维, 干福熹, “以 CdCl2和 PbCl2为基的玻璃的形成及其性质”, 材料科学进展5 (01) 1991, 64-69.
13)H. Jiang*, H. Sun, and F. Gan, “Formation, Structure, and Properties of Some Chloride and Chalcohalide Glasses”, European Journal of Solid State and Inorganic Chemistry, vol 28, 1277 (1991).
14)H.C. Jiang*, B. Yuan, H. W. Sun, and F. X. Gan, “A study on the structures of glasses based on CdCl2 and PbCl2”, Journal of Materials Science Letters, 10 (22) 1326-1328, 1991.
15) Haochuan Jiang, H. Sun, Fuxin Gan, B. Yuan, “Properties and structure of the IR transmitting glasses in the CdCl2 Based systems”, Journal of Materials Science Letters, 9, 1195-1196, 1990.