[1] J. T. Fan, G. He, Z. Z. Cao, Y. F. Cao, Z. Long, Z. G. Hu, Thermal stable and ultralow dielectric loss in (Gd0.5Ta0.5)xTi1-xO2 giant permittivity ceramics by defect engineering. Journal of Materiomics, 2023, 9(1): 157-165. [2] H.T. Zhou X. L He, W.Y. Wu, J.F. Tong, J.L. Wang, Y.B. Zuo, Y.C. Wu, C.L. Zhang, Z. G. Hu, Hydrothermal Growth of KTiOPO4 crystal for Electro-Optic Application, Light-science & applications, 2023, 12(1): 1-20. [3] Jinjie Zhou, Hongping Wu, Hongwei Yu*, Shutong Jiang, Zhanggui Hu, Jiyang Wang, Yicheng Wu and P. Shiv Halasyamani, BaF2TeF(OH)2: A UV Nonlinear Optical Fluorotellurite Material Designed by Band-gap Engineering. J. Am. Chem. Soc. 2020, 142, 4616. [4] J. J. Zhou, Y. Q. Liu, H. P. Wu, H. W. Yu, Z. S. Lin, Z. G. Hu, J. Y. Wang, Y. C. Wu, CsZn2BO3X2(X-2=F-2, Cl-2, and FCl): A Series of Beryllium-Free Deep-Ultraviolet Nonlinear-Optical Crystals with Excellent Properties. Angewandte Chemie-International Edition, 2020, 59(43): 19006-19010. [5] Fengguang You, Fei Liang, Qian Huang, Zhanggui Hu, Yicheng Wu, and Zheshuai Lin,Pb2GaF2(SeO3)2Cl: Band Engineering Strategy by Aliovalent Substitution for Enlarging Bandgap while Keeping Strong Second Harmonic Generation Response, J. Am. Chem. Soc. 2019, 141(2): 748-752. [6]. Zhanggui Hu, Yinchao Yue, Xuean Chen, Jiyong Yao, Jianuo Wang, Zheshuai Lin, Growth and structure redetermination of a nonlinear BaAlBO3F2 crystal. Solid State Sciences, 2011, 13(5): 875-878. [7] ZG Hu, M. Yoshimura, Y. Mori, T. Sasaki, Growth of a new nonlinear optical crystal-BaAlBO3F2. Journal of Crystal Growth, 2004, 260(3-4): 287-290. [8] Cao Zhenbo, Yue Yinchao, Yao Jiyong, Lin Zheshuai, He Ran, Hu Zhanggui, Bi2IO4(IO3)3: A New Potential Infrared Nonlinear Optical Material Containing(IO4)3-Anion , Inorganic Chemistry, 2011, 50(24): 12818 -12822. [9] Hu Zhanggui, Zhao Ying, Yue Yinchao, Yu Xuesong, Large LBO crystalgrowth at 2 kg-level, Journal of Crystal Growth, 2011, 335(1): 133-137. [10] Hu ZG, Yoshimura M, Mori Y, Sasaki T, Design and growth of new NLO crystals for UV light generation, Journal of Crystal Growth, 2005, 275(1-2): 232-239. [11] Hu ZG, Yoshimura M,Muramatsu K, Mori Y, Sasaki T, A new nonlinearoptical crystal-BaAlBO3F2(BABF), Japanese Journal of Applied Physics Part2-Letters, 2002, 41(10B): L1131-L1133. [12] Hu ZG, Higashiyama T, Yoshimura M, Yap YK, Mori Y, Sasaki T, A new nonlinear optical borate crystal K2Al2B2O7 (KAB), Japanese Journal of Applied Physics Part 2-Letters, 1998, 37(10A): L1093-L1094. ● 发明专利(部分)
[1]胡章贵,陈创天,刘有臣,王晓洋等,一种水热法生长氟硼铍酸铷/铯单晶体的方法,申请号: 200610072719.1 [2]胡章贵,陈创天,刘有臣,张昌龙,王晓洋,周卫宁,一种水热法生长氟硼铍酸钾/钠单晶体的方法,申请号:200610072715.3 [3]胡章贵,余雪松,一种CsLiB6O10晶体的助熔剂生长方法,申请号:200710063978.2 [4]胡章贵,胡静,一种用液相共沉淀合成生长料制备磷酸钛氧钾晶体的方法,申请号: 200710304266.5 [5]胡章贵,岳银超,BaAlBO3F2晶体的助熔剂生长方法,申请号:200810100823.6 [6]胡章贵,岳银超,吴振雄,一种K2Al2B2O7晶体助熔剂生长方法,申请号:200910076876.3 [7]胡章贵,张国春,张辉,郑丽丽, 用于熔体提拉法生长晶体的调节气液温差的异型坩埚,申请号:200910076877.8 [8]胡章贵,曹自立,余雪松,一种毫米级管状R’XR1-XAl3(BO3)4晶体的制备方法,申请号:201110082191.7 [9]胡章贵,毛倩,岳银超,大尺寸LBO晶体的助溶剂生长方法,申请号:201110382095.4 [10]胡章贵,曹振博,岳银超,一种非线性光学晶体Bi2I4O13及制备方法和用途,申请号:201110144384.0 [11]胡章贵,涂衡,一种用于大截面KDP类晶体生长的载晶架及生长方法,申请号:201210102338.9 [12]胡章贵,岳银超,余雪松,毛倩等,一种YAB晶体生长助熔剂及YAB晶体生长方法,申请号:201210047053.X [13]胡章贵,岳银超,赵营,涂衡,一种大口径扁平状LBO单晶体的生长方法,申请号:201210343210.1 [14]邱海龙,武羽,胡章贵,无催化剂绝缘基底生长石墨烯薄膜的方法,申请号:201910900985.6 [15]俞洪伟,周金杰,吴红萍,胡章贵,化合物铅硼氧碘和铅硼氧碘非线性光学晶体及制备方法和用途,申请号:201910452477.6, [16]俞洪伟,周金杰,吴红萍,胡章贵,化合物氯代硼锌酸铯和氯代硼锌酸铯非线性光学晶体及制备方法和用途,申请号:201910944808.8 [17]俞洪伟,周金杰,吴红萍,胡章贵,化合物氟代硼锌酸铯和氟代硼锌酸铯非线性光学晶体及制备方法和用途,申请号:201910942731.0 [18]俞洪伟,周金杰,吴红萍,胡章贵,化合物氟氯代硼锌酸铯和氟氯代硼锌酸铯非线性光学晶体及制备方法和用途,申请号:201910942723.6 [19]俞洪伟,徐晶晶,吴红萍,胡章贵,化合物锗酸锂铷和锗酸锂铷非线性光学晶体及制备方法和用途,申请号:201910429376.7 [20]俞洪伟,徐晶晶,吴红萍,胡章贵,化合物锗酸锂铯和锗酸锂铯非线性光学晶体及制备方法和用途,申请号:201910429369.7 [21]俞洪伟,徐晶晶,吴红萍,胡章贵,化合物锂钾钛锗酸盐和锂钾钛锗酸盐非线性光学晶体及制备方法和用途,申请号:201910429905.3 [22]胡章贵,邱海龙,齐小方,朱显超,吴以成,一种利用机器学习辅助生长大尺寸LBO晶体的方法及其应用,申请号:CN202010444116.X [23]胡章贵,周海涛,王梦霞,一种水热法生长铌酸锂单晶薄膜或体单晶的方法,申请号:CN202011134896.4 [24]胡章贵,焦金苗,李从刚,赵文礼,佘羽珩,吴以成,一种中红外锗酸锌钾非线性光学晶体及其制备方法和用途,申请号:CN202210653568.8 [25]胡章贵,赵博进,邱海龙,孙印昌,霍宗举,垂直CVT籽晶法制备外尔半金属晶体的方法,垂直CVT籽晶法制备外尔半金属晶体的方法,申请号:CN202210077252.9 [26]胡章贵,郭小娟,陈建丽,徐永宽,利用溶液法在石墨件表面沉积碳化硅涂层的方法,申请号:CN202111515685.X
● 教学科研成果奖励 [1] 第18届国际晶体生长大会 (ICCGE-18,日本,名古屋,2016) 做大会报告; [2] 2021年“水热法KTP晶体光电器件关键技术研发应用”获得广西壮族自治区科技发明一等奖(2/12); [3] 第9届亚洲晶体生长与技术大会 (CGCT-9,韩国,济州岛,2024) 大会报告; [4] 2024年获得“亚洲晶体生长与技术奖”。
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