晶体生长研究所
晶体生长研究所创立于2008年,现有教授4人,副教授4人,讲师及辅助人员6人,在读研究生20余人。研究所坚持以应用研究为导向,兼顾相关基础研究,发展自己的特色。拥有包括闪烁性能、霍尔系数等在内的测试设备,以及提拉法、下降法、导模法、VGF法、助熔剂法、冷坩埚法、泡生法等各种晶体生长设备,其中坩埚下降法生长技术为本实验室特色,在国内外有重要影响。上海市优秀学科带头人徐家跃教授担任研究所所长。研究所先后承担有国家863项目、国家973前期专项、国家自然科学基金项目、上海市基础研究重点项目等课题以及多项产学研项目,年科研经费400万元以上,年发表论文40余篇。
主要研究方向:
(1)功能晶体生长研究:包括压电晶体、闪烁晶体等;
(2)半导体晶体及其应用研究:以GaAs、ZnTe、ZnO等为主;
(3)纳米结晶与粉体合成:各种功能纳米晶体研究;
(4)晶体生长装备研究:提拉炉、下降炉、助熔剂炉等。
目前承担的主要项目:
1. 徐家跃,双离子置换高光输出硅酸铋晶体的析晶行为和发光机理研究,国家973计划前期研究专项,2011.04-2013.12。
2. 徐家跃,掺杂ZnO超快闪烁晶体的生长研究,国家自然科学基金项目,2010.01-2012.12;
3. 申慧,过渡金属掺杂YFeO3晶体生长与改性研究,国家自然科学基金青年项目,2011.01-2013.12;
4. 金敏,高性能铁电单晶的微观力学行为研究,国家自然科学基金青年项目,2011.1-2013.12;
5. 房永征,砷化镓单晶制备新技术及其在LED中的应用,上海市科委地方高校能力建设项目,2009.11-2012.10;
6. 江国健,新型复合材料闸片关键技术及基础问题研究,上海市科委地方高校能力建设项目,2010.11-2013.06;
7. 江国健,新型复合材料刹车片研究,铁道部重点项目,2010.7-2013.06;
8. 王占勇,坩埚下降法生长高亮绿光LED用大尺寸ZnTe单晶,上海市自然科学基金项目,2010.04-2012.03;
9. 王占勇,高亮度绿光LED用碲化锌晶体的生长,上海市教委创新基金,2009.9-2011.12;
10. 申慧,具有强磁光效应的掺杂YFeO3晶体研究,上海市教委创新基金,2011.01-2012.12;
近3年代表性论文:
1. Hui Shen, Jiayue Xu, Min Jin, Guojian Jiang, Influence of manganese on the structure and magnetic properties of YFeO3 nanocrystal, Ceramics International, 38(2011)1473-1477.
2. Zhanyong Wang, Wenjun Fei. Huichun Qian, Min Jin, Hui Shen, Minglin Jin, Jiayue Xu, Weirong Zhang, Qin Bai, Structure and magnetic properties of CoFe2O4 ferrites synthesized by sol–gel and microwave calcination, J Sol-Gel Sci Technol, (2012) 61:289–295.
3. Z. X. Cheng, H. Shen, J. Y. Xu, P. Liu, S. J. Zhang, J. L. Wang, X. L. Wang,and S. X. Dou, Magnetocapacitance effect in nonmultiferroic YFeO3 single crystal, JOURNAL OF APPLIED PHYSICS 111, 034103 (2012).
4. Yan Zhang, Jiayue Xu, Qingbo He, Baoliang Lu, Bridgman growth and characterization of Bi4(GexSi1−x)3O12 mixed crystals, Journal of Crystal Growth, in Press.
5. Hui Shen, Jiayue Xu, Weijie Ping, Qingbo He, Yan Zhang, Min Jin, Guojian Jiang, Growth, mechanical and thermal properties of Bi4Si3O12 single crystals, Chinese Physics Letter, 29(7)(2012)076501.
6. Zhanyong Wang, Hongyang Zhao, Qiwen Yao, Jiayue Xu, Hideo Kimura, Structure and magnetism of ZnO/Co multilayers prepared by pulsed laser deposition, Cryst. Res. Technol., 47(7) (2012) 799-803.
7. Jiayue Xu, Qingbo He, Hui Shen, Min Jin, Yan Zhang, and Xinhua Li, Flux Bridgman growth and the influence of annealing temperatures on PL properties of ZnO single crystals, Cryst. Res. Technol. 46(11) (2011) 1107–1110.
8. Jiayue Xu, Qingbo He, Hui Shen, Min Jin, Baoliang Lu, Yan zhang, Zhanyong Wang, Flux-Bridgman growth and characterization of Mn-doped ZnO single crystals, Progress in Natural Science: Materials International. 21(2011) 363-367.
9. Yan Zhang, Jiayue Xu, Peifa Shao, Growth and spectroscopic properties of Yb:BSO single crystal, J. Cryst. Growth, 318(2011) 920-923.
10. Hui Shen, Jiayue Xu, Anhua Wu, Min Jin, Growth and thermal properties of Sr3NbGa3Si2O14 single crystals, J. Cryst. Growth, 318(2011) 836-838.
11. Jiang Guojian, Xu Jiayue, Zhuang Hanrui, Li Wenlan, Fabrication of B4C from Na2B4O7 + Mg + C by SHS method, Ceramics International. 37 (2011) 1689–1691.
12. Hong Wang, Haohong Chen, Jiayue Xu, Guanqin Hu, Jingtai Zhao, The effect of radiation damage on micro-mechanical properties of Bi4Ge3O12 single crystal, Nuclear Instruments and Methods in Physics Research A 631 (2011) 58–61.
13. Jiang Guojian, Xu Jiayue, Zhuang Hanrui, Li Wenlan, Fabrication of tungsten powder with sodium tungstate as raw material by SHS method, Materials Letters, 65 (2011) 2969-2971.
14. Jiang Guojian, Xu Jiayue, Zhuang Hanrui, Li Wenlan, Combustion synthesis of tungsten powder from sodium tungstate, Materials Science and Engineering: B176 (2011) 1037-1040.
15. JIN Min, FANG Yong-Zheng, SHEN Hui, JIANG Guo-Jian, WANG Zhan-Yong, XU Jia-Yue, Mechanical Property Evaluation of GaAs Crystal for Solar Cells, CHIN. PHYS. LETT. 28(8) (2011) 086101.
16. Yan Zhang, Jiayue Xu, Tingting Zhang, Synthesis and luminescence properties of Eu3+-doped Bi4Si3O12, J. Inorganic Materials, 26(12)(2011)1341-1344.
17. Wang Hong, Zhang Zhi-Jun, Zhao Jing-Tai, Xu Jia-Yue, Hu Guan-Qin, Li Pei-Jun, Mechanical Properties and Anisotropy in PbWO4 Single Crystal, Chinese Physics Letters, 27(2010)026101.
18. Shen Hui, Jiayue XU, Anhua WU, Preparation and characterization of perovskite REFeO3 nanocrystalline powders, J. Rare Earth, 28(3)(2010) 416-419
19. D. Zhou, Y.Y. Ren, Y. Shi, J.Y. Xu, G.J. Jiang, J.J. Xie, Hydrothermal synthesis of fully crystalline Nd:Lu2O3 nanopowders under a low temperature, Journal of Alloys and Compounds, 504(2010)L36-38.
20. Zhang Yan, Wang Guofu, Lin Zhoubin, Hu Zushu, Optial parameters of Nd3+ ion in Sr3Gd2(BO3)4 crystal, Journal of Inorganic Materials, 2010(25) 1110.
21. Yan Zhang, Bo Wei, Guofu Wang, Spectroscopic properties of Yb3+-doped Ca4Gd0.5Y0.5O(BO3)3 single crystal, Physica Status Solidi A, 2010, (207), 1468.
22. Yan Zhang, Guofu Wang, Growth and optical properties of Yb3+-doped Sr3Y2(BO3)4 crystal, Materials Research Innovations 2010, (14), 277.
23. Yan Zhang, Guofu Wang, Zhoubin Lin, Lizhen Zhang, Growth and spectroscopic properties of Nd3+:Sr3Gd2(BO3)4 crystal, Chinese Journal of Structural Chemistry 2010, (29), 1039.
24. Wang Zhanyong, Zhong Liuming, Lv Jieli, Qian Huichun, Zheng Yuli, Fang Yongzheng, Jin Minglin, Xu Jiayue, Microwave-assistedsynthesisof SrFe12O19 hexaferrites, Journal of Magnetism and Magnetic Materials 322 (2010) 2782–2785.
25. Hui Shen, Jiayue Xu, AnhuaWu, Jingtai Zhao, Minli Shi , Magnetic and thermal properties of perovskite YFeO3 single crystals, Materials Science and Engineering B, 157(2009)77-80.
26. Hui Shen, Guofeng Cheng, Anhua Wu, Jiayue Xu, and Jingtai Zhao, Combustion synthesis and characterization of nano-crystalline LaFeO3 powder, Phys. Status Solidi A, 206 (2009) 1420-1424.
27. Wang Zhanyong, High coercivity Nd2Fe14B/a-Fe nanocomposite magnets, Physica B, 2009(404): 1321.
28. XU Jiayue, LEI Xiuyun, JIANG Xin, HE Qingbo, FANG Yongzheng, ZHANG Daobiao, HE Xuemei, Industrial growth of yttira-stabilized cubic zirconia crystals by skull melting process, J. Rare Earth, 27(2009)971-974.
29. Jiang Guojian, Xu Jiayue, Zhuang Hanrui, Li Wenlan, Combustion of Na2B4O7 + Mg + C to synthesis B4C powders, J. Nuclear Materials, 393(3) (2009) 487-491.