[1] Jincheng Qin, Zhifu Liu, Mingsheng Ma, Yongxiang Li, Optimizing and extending ion dielectric polarizability database for microwave frequencies using machine learning methods, NPJ Comput. Mater., 9, 132 (2023).
[2] 秦锦成,刘志甫,马名生,李永祥. 数据驱动范式下微波介质陶瓷材料及器件研究进展. 硅酸盐学报, 51(4), 921-933 (2023).
[3] Jincheng Qin, Zhifu Liu, Mingsheng Ma, Yongxiang Li, Machine learning-assisted materials design and discovery of low melting-point inorganic oxides for low-temperature cofired ceramic applications, ACS Sustainable Chem. Eng., 10, 1554-1564 (2022).
[4] Jincheng Qin, Zhifu Liu, Mingsheng Ma, Yongxiang Li, Crystal structure, lattice vibration and microwave dielectric properties of 3CaO 2SiO2 xCaF2 (0 ≤ x ≤ 1.5) ceramics, Ceramics International, 48, 14371-14377 (2022).
[5] Yan Yang, Mingsheng Ma, Yongzhe Wang, Zhifu Liu, Faqiang Zhang, Yongxiang Li, Low-temperature sintering of ZnAl2O4 ceramics with 4CuO-TiO2-2Nb2O5 composite oxide sintering aid, Ferroelectrics, 586, 190-198 (2022).
[6] Yujun Gao, Jingjing Feng, Feng Liu, Zhifu Liu, Effects of Organic Vehicle on the Rheological and Screen-Printing Characteristics of Silver Paste for LTCC Thick Film Electrodes, Materials, 15, 1953 (2022).
[7] Jingjing Feng, Yujun Gao, Faqiang Zhang, Mingsheng Ma, Yan Gu, Zhifu Liu, Kun Chen, Effects of organic binder on rheological behaviors and screen-printing performance of silver pastes for LTCC applications, J Mater Sci: Mater Electron, 33, 10774-10784 (2022).
[8] Tingting He, Mingsheng Ma, Haogeng Li, Faqiang Zhang, Feng Liu, Zhifu Liu, Xiaogan Li, Integrated wireless microfluidic liquid sensors based on low temperature co-fred ceramic (LTCC) technology, Sensors & Actuators: A. Physical, 346, 113840 (2022).
[9] Jincheng Qin, Zhifu Liu, Mingsheng Ma, Yongxiang Li, Machine learning approaches for permittivity prediction and rational design of microwave dielectric ceramics, Journal of Materiomics, 7, 1284-1293 (2021).
[10] Jincheng Qin, Zhifu Liu, Mingsheng Ma, Feng Liu, Ze-Ming Qi, Yongxiang Li, Structure and Microwave Dielectric Properties of Gillespite-Type ACuSi4O10 (A = Ca, Sr, Ba) Ceramics and Quantitative Prediction of the Q f Value via Machine Learning, ACS Applied Materials & Interfaces, 13, 17817-17826 (2021).
[11] Zhibin Liu, Keda Ding, Zhifu Liu, Faqiang Zhang, Huarong Zeng, Kunqi Xu, Yiyang Sun, Dong Wang, Yongxiang Li, Kinetics-Driven One-Dimensional Growth of van der Waals Layered SnSe, The Journal of Physical Chemistry C, 125, 12730-12737 (2021).
[12] Zhibin Liu, Kunqi Xu, Huarong Zeng, Zhifu Liu, Kunyu Zhao, Faqiang Zhang, Dong Wang, Yongxiang Li, In Situ Detection of Local Structure Transformation of 2D SnSe Nanosheets through Nanothermomechanical Behavior, Physica Status Solidi-Rapid Research Letters, 15, 2100121 (2021).
[13] Zhibin Liu, Huarong Zeng, Kunqi Xu, Kunyu Zhao, Zhifu Liu, Jianjun Yao, Yanan You and Dong Wang, AFM-IR probing the influence of polarization on the expression of proteins within single macrophages, Journal of Materials Chemistry B, 9, 2909-2917 (2021).
[14] Guanhua Song, Faqiang Zhang, Feng Liu, Zhifu Liu, Yongxiang Li, Electrical properties and temperature stability of SrTiO3-modified (Bi1/2Na1/2)TiO3-BaTiO3 -(K1/2Na1/2)NbO3 piezoceramics, Journal of the American Ceramic Society, 104, 4049-4057 (2021).
[15] Yu Liang, Mingsheng Ma, Faqiang Zhang, Feng Liu, Tan Lv, Zhifu Liu, Yongxiang Li, Wireless Microfluidic Sensor for Metal Ion Detection in Water, ACS Omega, 6, 9302-9309 (2021).
[16] Bo Wang, Faqiang Zhang, Yan Yang, Feng Liu, Zhibin Liu, Zhifu Liu, Yongxiang Li, Microstructure and electrical properties of (K0.48Na0.52)0.97Li0.03NbO3 - 0.03CaZrO3 lead-free piezoceramics with (4CuO–TiO2–2Nb2O5) additive, Ceramics International, 47, 18886-18892 (2021).
[17] Tingting He,Wei Liu,Tan Lv,Mingsheng Ma,Zhifu Liu,Alexey Vasiliev, Xiaogan Li, MXene/SnO2 heterojunction based chemical gas sensors, Sensors and Actuators B: Chemical, 329, 129275 (2021).
[18] Jikun Yang, Faqiang Zhang, Yongxiang Li, Zhifu Liu, Shuxiang Dong, Monolithic piezoceramic actuators with a twist,Science China Materials, 64, 2777-2785 (2021).
[19] Anqing Wei, Zhifu Liu, Faqiang Zhang, Mingsheng Ma, Guanyu Chen, Yongxiang Li, Thermal expansion coefficient tailoring of LAS glass-ceramic for anodic bondable low temperature co-fired ceramic application, Ceramics International, 46, 4771-4777 (2020).
[20] Guanhua Song, Zhibin Liu, Faqiang Zhang, Feng Liu, Yan Gu, Zhifu Liu, Yongxiang Li, High-throughput synthesis and electrical properties of BNT–BT–KNN lead-free piezoelectric ceramics, Journal of Materials Chemistry C, 8, 3655-3662 (2020).
[21] Wei Shan, Zhengqian Fu, Faqiang Zhang, Mingsheng Ma, Zhifu Liu, Yongxiang Li, SnS2 Nanoplates: Synthesis and NO2 Sensing Property, Journal of Inorganic Materials, 35, 497-504 (2020).
[22] Yongyuan Liang, Mingsheng Ma, Suxiang Qian, H Zhuang, K Li, Zhifu Liu, Yongxiang Li, Biocompatibility of Borosilicate Glass-ceramics Based LTCC Materials for Microfluidic Biosensor Application, International Journal of Applied Ceramic Technology, 17, 365-371 (2020).
[23] Bo Wang, Feng Liu, Faqiang Zhang, Guanyu Chen, Zhifu Liu, Yongxiang Li, Effects of the post-annealing reductive-atmosphere-sintered (K0.48Na0.52)NbO3 lead-free piezoceramics, Ceramics International, 46, 27373-27380 (2020).
[24] Yan Yang, Mingsheng Ma, Faqiang Zhang, Feng Liu, Guanyu Chen, Zhifu Liu, Yongxiang Li, Low-temperature sintering of Al2O3ceramics doped with 4CuO-TiO2-2Nb2O5 composite oxide sintering aid, Journal of the European Ceramic Society, 40, 5504-5510 (2020).
[25] Dong Huang, Wen-Long Li, Zhi-Fu Liu, Yong-Xiang Li, Cuong Ton-That, Jiaqi Cheng, Wallace C. H. Choy, Francis Chi-Chung Ling, Electron-pinned defect dipoles in (Li, Al) co-doped ZnO ceramics with colossal dielectric permittivity, Journal of Materials Chemistry A, 8, 4764-4774 (2020).
[26] Xiaoxiao Peng, Zhifu Liu, Yan Gu, Faqiang Zhang, Yongxiang Li, Dielectric properties of (Al3+,Nb5+) co-doped CaTiSiO5 ceramics at elevated temperature, Journal of Physics and Chemistry of Solids, 132, 83-88 (2019).
[27] Suxiang Qian, Feng Liu, Mingsheng Ma, Guanyu Chen, Zhifu Liu, Yongxiang Li, Mechanical strength enhancement of low temperature co-fired multilayer ceramic substrates by introducing residual stress, Ceramics International, 45, 10982-10990 (2019).
[28] Guanyu Chen, Mingsheng Ma, Zhifu Liu, Anqing Wei, Ali Zavabeti, Xinyi Hu, Faqiang Zhang, Bing Wang, Arnan Mitchell, Yongxiang Li, Anodic bondable Li-Na-Al-B-Si-O glass-ceramics for Si - ULTCC heterogeneous integration, Journal of the European Ceramic Society, 39, 2419-2426 (2019).
[29] Hao Xiang, Faqiang Zhang, Zhiguo Yi, Mingsheng Ma, Yan Gu, Feng Liu, Yongxiang Li, Zhifu Liu, Non-Stoichiometry Induced Switching Behavior of Ferroelectric Photovoltaic Effect in BaTiO3 Ceramics, Phys. Status Solidi RRL, 1900074 (2019).
[30] Xuewen Gong, Yan Gu, Faqiang Zhang, Zhifu Liu, Yongxiang Li, Guanyu Chen, Bo Wang, High-Performance Non-enzymatic Glucose Sensors Based on CoNiCu Alloy Nanotubes Arrays Prepared by Electrodeposition, Frontiers in Materials, 6, 3 (2019).
[31] Mingsheng Ma, Yi Wang, Feng Liu, Faqiang Zhang, Zhifu Liu, Yongxiang Li, Passive Wireless LC Proximity Sensor Based on LTCC Technology, Sensors, 19, 1110 (2019).
[32] Yongyuan Liang, Mingsheng Ma, Faqiang Zhang, Feng Liu, Zhifu Liu, Dong Wang, Yongxiang Li, An LC Wireless Microfluidic Sensor Based on Low Temperature Co-Fired Ceramic (LTCC) Technology, Sensors, 19, 1189 (2019).
[33] Wei Shan, Zhengqian Fu, Mingsheng Ma, Zhifu Liu, Zhenggang Xue, Jiaqiang Xu, Faqiang Zhang, Yongxiang Li, Facile Chemical Bath Synthesis of SnS Nanosheets and Their Ethanol Sensing Properties, Sensors, 19, 2581 (2019).
[34] Wenlong Li, Zhifu Liu, Faqiang Zhang, Qingbo Sun, Yun Liu, Yongxiang Li, Colossal permittivity of (Li, Nb) co-doped TiO2 ceramics, Ceramics International, 45, 11920-11926 (2019).
[35] Mingsheng Ma, Yi Wang, Miguel Navarro-C ac, Feng Liu, Faqiang Zhang, Zhifu Liu, Yongxiang Li, Stephen M. Hanham, Zhangcheng Hao, The dielectric properties of some ceramic substrate materials at terahertz frequencies, Journal of the European Ceramic Society, 39, 4424-4428 (2019).
[36] Guanyu Chen, Mingsheng Ma, Anqing Wei, Zhifu Liu, Faqiang Zhang, Arnan Mitchell, Yongxiang Li, The dielectric, thermal properties and crystallization mechanism of Li–Al–B–Si–O glass–Ceramic systems as a new ULTCC material, Ceramics International, 45, 19689- 19694 (2019).
[37] Xitao Liu, Faqiang Zhang, Peiqing Long, Teng Lu, Huarong Zeng, Yun Liu, Ray L. Withers, Yongxiang Li, Zhiguo Yi, Anomalous Photovoltaic Effect in Centrosymmetric Ferroelastic BiVO4, Advanced Materials, 30, 1801619 (2018).
[38] Faqiang Zhang,Olivia Wahyudi,Zhifu Liu,Hui Gu, Yongxiang Li, Preparation and electrical properties of a new-type intergrowth bismuth layer-structured (Bi3TiNbO9)1(Bi4Ti3O12)2 ceramics, Journal of Alloys and Compounds, 753, 54-59 (2018).
[39] Wanghua Wu, Zhifu Liu, Yan Gu, Zhenxing Yue, Yongxiang Li, Thermally stimulated depolarization current study on barium titanate single crystals, AIP Advances, 8, 045005 (2018).
[40] Tingting Luo, Zhifu Liu, Faqiang Zhang, Yongxiang Li, Colossal permittivity and the polarization mechanism of (Mg, Mn) co-doped LaGaO3 ceramics, Journal of Applied Physics, 123, 124108 (2018).
[41] Lin Lin, Mingsheng Ma, Faqiang Zhang, Feng Liu, Zhifu Liu, Yongxiang Li, Fabrications and Performance of Wireless LC Pressure Sensors through LTCC Technology, Sensors, 18, 340 (2018).
[42] Lin Lin, Mingsheng Ma, Faqiang Zhang, Feng Liu, Zhifu Liu, Yongxiang Li, Integrated passive wireless pressure and temperature dual-parameter sensor based on LTCC technology, Ceramics International, 44, S129-S132 (2018).
[43] Guanyu Chen, Zhifu Liu, Mingsheng Ma, Faqiang Zhang, Yongxiang Li, Zhaoyin Wen, Xiangwei Wu, Composites of Li-Al-B-Si-O glass and -Al2O3 for LTCC-silicon heterogeneous integration applications, Ceramics International, 44, S141-S144 (2018).
[44] Hui Shao, Zhifu Liu, Gang Jian, Yongxiang Li, Low-temperature sintering of Ti1-xCux/3Nb2x/3O2 (x = 0.23) microwave dielectric ceramics with CuO and B2O3 addition, Ceramics International, 44, 3314-3318 (2018).
[45] Peng Zheng, Zhifu Liu, Mingsheng Ma, Yi Wang, Feng Liu, Yongxiang Li, Ka-Band LTCC Stacked Substrate Integrated Waveguide Bandpass Filter, Wireless Communications and Mobile Computing, 9737219 (2018).
[46] Dong Huang, Zhifu Liu, Yongxiang Li, Yun Liu, Colossal permittivity and dielectric relaxation of (Li, In) Co-doped ZnO ceramics, Journal of Alloys and Compounds, 698, 200-206 (2017).
[47] Jian Chang, Zhifu Liu, Mingsheng Ma, Yongxiang Li, Parallel preparation and properties investigation on Li2O-Nb2O5-TiO2 microwave dielectric ceramics, Journal of the European Ceramic Society, 37, 3951-3957 (2017).
[48] Mingsheng Ma, Hareem Khanb, Wei Shan, Yichao Wang, Jian Zhen Ou, Zhifu Liu, Kourosh Kalantar-zadeh, Yongxiang Li, A novel wireless gas sensor based on LTCC technology, Sensors and Actuators B: Chemical, 239, 711-717 (2017).
[49] Mingsheng Ma, Zhengqian Fu, Zhifu Liu, Yongxiang Li, Fabrication and microwave dielectric properties of CuO-B2O3-Li2O glass-ceramic with ultra-low sintering temperature, Ceramics International, 43, S292-S295 (2017).
[50] Hui Shao, Zhifu Liu, Guang Jian, Mingsheng Ma, Yongxiang Li, Effects of Mn2+ doping on the microwave dielectric properties of Ti1-xCux/ 3Nb2x/3O2 ceramics, Ceramics International, 43, 13895-13900 (2017).
[51] Zhichao Yang, Yan Gu, Faqiang Zhang, Zhifu Liu, Yongxiang Li, Improved dielectric breakdown strength of Dy doped (Ba0.97Ca0.03)(Ti0.98Mg0.02)O3 ceramics with nanosized grains, Physica Status Solidi A-Applications and Materials Science, 214, 1700149 (2017).
[52] HUANG Dong, WU Ying, MIAO Ji-Yuan, LIU Zhi-Fu, LI Yong-Xiang, Colossal Permittivity and Dielectric Relaxations of (Nb, Al) Co-doped BaTiO3 Ceramics, Journal of Inorganic Materials, 32, 219-224 (2017).
[53] Peng Zheng, Zhifu Liu, Yongxiang Li, Linsheng Wu, Yi Wang, LTCC based substrate integrated waveguide (SIW) bandpass filters with CPW transitions, 2017 International Workshop on Electromagnetics: Applications and Student Innovation Competition, 97-99 (2017).
[54] Zhengqian Fu, Jie Yang, Huizhu Yu, Yongzhe Wang, Ping Lu, Qunbao Yang, Fangfang Xu, Yongxiang Li, Periodic configuration of -boundaries and ferroelectric domains in Li-modified (K, Na)NbO3 lead-free piezoelectric single crystals by solid state crystal growth, Journal of the European Ceramic Society, 37, 593-598 (2017).
[55] Zhengqian Fu, Jie Yang, Ping Lu, Linlin Zhang, Heliang Yao, Fangfang Xu, Yongxiang Li, Influence of secondary phase on polymorphic phase transition in Li-doped KNN lead-free ceramics, Ceramics International, 43, 12893-12897 (2017).
[56] Jie Yang, Faqiang Zhang, Qunbao Yang, Zhifu Liu, Yongxiang Li, Yun Liu, Qiming Zhang, Large piezoelectric properties in KNN-based lead-free single crystals grown by a seed-free solid-state crystal growth method, Applied physics letters, 108, 182904 (2016).
[57] Jie Yang, Qunbao Yang, Yongxiang Li, Yun Liu, Growth mechanism and enhanced electrical properties of K0.5Na0.5NbO3-based lead-free piezoelectric single crystals grown by a solid-state crystal growth method, Journal of the European Ceramic Society, 36, 541-550 (2016).
[58] Mingsheng Ma, Zhifu Liu, Faqiang Zhang, Feng Liu, Yongxiang Li, Suppression of Silver Diffusion in Borosilicate Glass-Based Low-Temperature Cofired Ceramics by Copper Oxide Addition, Journal of the American Ceramic Society, 99, 2402-2407 (2016).
[59] Jie Yang, Zhengqian Fu, Qunbao Yang, Yongxiang Li, Yun Liu, Effect of seeds and sintering additives on (K,Na,Li)NbO3 leadfree single crystals grown by a solid-state crystal growth method, Journal of the Ceramic Society of Japan, 124, 365-369 (2016).
[60] Zhiqiang Zhang, Jie Yang, Zhifu Liu, Yongxiang Li, Effects of Ta Content on the Electrical Properties of Lead-Free (K0.44Na0.52Li0.04)(Nb0.96-xTaxSb0.04)O3 Ceramics, Ferroelectrics, 490, 70-77 (2016).
[61] Jie Yang, Zhiqiang Zhang, Qunbao Yang, Yongxiang Li, Microstructure and Electrical Properties of (K0.48Na0.52)NbO3–(0.16/5.15)K2.9Li1.95Nb5.15O15.3 Lead-Free Piezoceramics Prepared by Two-Step Sintering Method, Ferroelectrics, 490, 94-102 (2016).
[62] Olivia Wahyudi, Faqiang Zhang, Feng Liu, Yongxiang Li, Synthesis of Intergrowth Bi7Ti4NbO21 Compound by Sol-Gel Method and Its Comparison with Other Synthesis Methods, Ferroelectrics, 490, 190-195 (2016).
[63] Jiyuan Miao, Ying Wu, Zhiqiang Zhang, Faqiang Zhang, Zhifu Liu, Yongxiang Li, Dielectric Behavior of (Ba0.95Ca0.05)(Zr0.15Ti0.842Mg0.008)O3- (Ba0.95Ca0.05)(Zr0.08Ti0.92)O3 Layered Ceramics, Ferroelectrics, 492, 17-24 (2016).
[64] Teng Guo, Yongxiang Li, Olivia Wahyudi, Shifu Chen, Xuchun Wang, Junhua Chen, Microwave Dielectric Properties of AZn2(PO4)2 (A = Sr, Ba) Ceramics, Ferroelectrics, 492, 91-102 (2016).
[65] Zhengqian Fu, Zhiqiang Zhang, Ping Lu, Linlin Zhang, Heliang Yao, Fangfang Xu, Yongxiang Li, Mechanistic interpretation of the reactive templated grain growth process of (Li, Ta, Sb) modified (K, Na)NbO3 textured lead-free piezoceramics, CrystEngComm, 18, 7029-7035 (2016).
[66] Zhiqiang Zhang, Jie Yang, Zhifu Liu, Yongxiang Li, Evolution of textured microstructure of Li-doped (K,Na)NbO3 ceramics prepared by reactive templated grain growth, Journal of Alloys and Compounds, 624, 158-164 (2015).
[67] Zhiqiang Zhang, Ying Wu, Jiyuan Miao, Zhifu Liu, Yongxiang Li, (Li, Ta, Sb) modified (K, Na)NbO3 ceramics as high temperature dielectric materials, Ceramics International, 41, S9-S14 (2015).
[68] Feng Liu, Olivia Wahyudi, Yiqing Lu, Yongxiang Li, A new Na0.5Bi0.5TiO3 based lead-free piezoelectric system with calculated end-member Bi(Zn0.5Zr0.5)O3, Ceramics International, 41, S31-S36 (2015).
[69] Olivia Wahyudi, Faqiang Zhang, Feng Liu, Yongxiang Li, Morphological and phase analysis during the synthesis of Bi7Ti4NbO21 by a co-precipitation method, Ceramics International, 41, S41-46 (2015).
[70] Faqiang Zhang, Olivia Wahyudi, Yongxiang Li, Hui Gu, The kinetic effect on formation of disordered intergrowth structures in mixed bismuth-layered (Bi3NbTiO9)2(Bi4Ti3O12)1 compounds, Ceramics International, 41, S162-168 (2015).
[71] Jiyuan Miao, Zhiqiang Zhang, Zhifu Liu, Yongxiang Li, Investigation on the dielectric properties of Mg-doped (Ba0.95Ca0.05)(Ti0.85Zr0.15)O3 ceramics, Ceramics International, 41, S487-491 (2015).
[72] Mingsheng Ma, Yilin Wang, Yiqing Lu, Wenjun Wu, Yongxiang Li, Effect of ball mill method on microstructure and electrical properties of BaTiO3 based PTCR ceramics, Ceramics International, 41, S804-808 (2015).
[73] Ying Wu, Jiyuan Miao, Zhifu Liu, Yongxiang Li, Colossal permittivity and dielectric relaxations in BaTi0.99(Nb0.5Ga0.5)0.02O3 ceramics, Ceramics International, 41, S846-850 (2015).
[74] Jian Zhen Ou, Wanyin Ge, Benjamin Carey, Torben Daeneke, Asaf Rotbart, Wei Shan, Yichao Wang, Zhengqian Fu, Adam F. Chrimes, Wojtek Wlodarski, Salvy P. Russo, Yong Xiang Li, Kourosh Kalantar-zadeh, Physisorption-Based Charge Transfer in Two-Dimensional SnS2 for Selective and Reversible NO2 Gas Sensing, ACS Nano, 9, 10313-10323 (2015).
[75] Feng Liu, Olivia Wahyudi, Yongxiang Li, A new Bi0.5Na0.5TiO3 based lead-free piezoelectric system with calculated end-member Bi(Zn0.5Hf0.5)O3, Journal of Applied Physics, 115, 114101 (2014).
[76] Faqiang Zhang, Yongxiang Li, Hui Gu, Xiang Gao, Local orderings in long-range-disordered bismuth-layered intergrowth structure, Journal of Solid State Chemistry, 212, 165-170 (2014).
[77] Zhiqiang Zhang, Zhifu Liu, Yongxiang Li, Influence of synthesis conditions on the microstructure of Li-Ta-Ti-O microsheets by molten salt method, Ceramics International, 40, 3747-3753 (2014).
[78] Pan Wang, Yilin Wang, Yiqing Lu, Yongxiang Li, Microstructure and Electrical Properties of Lead-free Piezoelectric Ba-excess (Ba0.85(1+0.7%)Ca0.15)- (Ti0.9Zr0.1)O3 Ceramics by Microwave Sintering, Ferroelectrics, 458, 163-173 (2014).
[79] Zhengfa Li, Wenjun Wu, Feng Liu, Yongxiang Li, Pingzhan Si, Hongliang Ge, Microwave dielectric properties of La4Ti3O12 ceramics, Materials Letters, 118, 24-26 (2014).
[80] 李永祥,信息功能陶瓷研究的几个热点,无机材料学报,29, 1-5 (2014).
[81] 张志强,刘志甫,李永祥,0.84(K0.48Na0.52)NbO3-0.16K0.56Li0.38NbO2.97无铅压电陶瓷的多层膜工艺研究,无机材料学报,29, 23-27 (2014).
[82] 刘峰,陆毅青,李永祥,铋层状共生结构铁电体Bi7Ti4NbO21的第一性原理计算,无机材料学报,29, 38-42 (2014).
[83] 张发强,李永祥,铋层状结构铁电体的研究进展,无机材料学报,29, 449-460 (2014).
[84] Mingsheng Ma, Zhifu Liu, Yongxiang Li, Yuping Zeng, Dongxu Yao, Thermal conductivity of low-temperature sintered calcium aluminosilicate glass-silicon nitride whisker composites, Ceramics International, 39, 4683-4687(2013).
[85] Mingsheng Ma, Zhifu Liu, Yongxiang Li, Yuping Zeng, Dongxu Yao, Enhanced thermal conductivity of low-temperature sintered borosilicate glass–AlN composites with b-Si3N4 whiskers, Journal of the European Ceramic Society, 33, 833-839 (2013).
[86] Mingsheng Ma, Zhifu Liu, Yongxiang Li. Multilayer Metallized Ceramic Composites:LTCC Processing and Thermal Simulation. Ferroelectrics, 450, 107-112. (2013).
[87] J. Yu, H. Wen, M. Shafiei, M. R. Field, Z. F. Liu, W. Wlodarski, N. Motta, Y. X. Li, K. Kalantar-zadeh, P. T. Lai, A hydrogen/methane sensor based on niobium tungsten oxide nanorods synthesised by hydrothermal method, Sensors and Actuators B, 184, 118-129 (2013).
[88] Jerry Yu, Liu Yuan, Hao Wen, Mahnaz Shafiei, Matthew Richard Field, Jia Liang, Jin Yang, Zhi Fu Liu, Wojtek Wlodarski, Nunzio Motta, Yong Xiang Li, Gengmin Zhang, Kourosh Kalantar-zadeh, Peter To Lai, Hydrothermally formed functional niobium oxide doped tungsten nanorods, Nanotechnology, 24, 495501(2013).
[89] Zhifu Liu, Yilin Wang, Wenjun Wu, Yongxiang Li, Li–Nb–Ti–O microwave dielectric ceramics, Journal of Asian Ceramic Societies, 1, 2-8 (2013).
[90] Zhifu Liu, Zhiqiang Zhang, Faqiang Zhang and Yongxiang Li, Enhanced energy storage properties of barium titanate ceramics made from surface modified particles, Journal of Advanced Dielectics, 3, 1350023 (2013).
[91] Changwei Shao, Yiqing Lu, Dong Wang, Yongxiang Li, Effect of Nd substitution on the microstructure and electrical properties of Bi7Ti4NbO21 piezoceramics, Journal of the European Ceramic Society, 32, 3781 (2012).
[92] Zhifu Liu, Yilin Wang, Yongxiang Li, Combinatorial study of ceramic tape-casting slurries, ACS Combinatorial Science, 14, 205-210 (2012).
[93] Youliang Wang, Yiqing Lu, Mengjia Wu, Dong Wang, Yongxiang Li, Phase Structure and Enhanced Piezoelectric Properties of Lead-Free Ceramics (1-x)(K0.48Na0.52)NbO3-(x/5.15)K2.9Li1.95Nb5.15O15.3 with High Curie Temperature, International Journal of Applied Ceramic Technology, 9, 221 (2012).
[94] Youliang Wang, Yiqing Lu, Mengjia Wu, Dong Wang, Yongxiang Li, Low-temperature sintering and electrical properties of (K, Na)NbO3 based lead-free ceramics with high Curie temperature, Ceramics International, 38, S295 (2012).
[95] Teng Guo, Wenjun Wu, Yilin Wang, Yongxiang Li, Relations on synthesis, crystal structure and microwave dielectric properties of SrZnP2O7 ceramics, Ceramics International, 38, s187-s190 (2012).
[96] Teng Guo, Wenjun Wu, Yilin Wang, Yongxiang Li, Comparison for the crystal structure, synthesis and microwave dielectric properties of alkaline earth orthophosphates, Materials Chemistry and Physics, 134, 503 (2012).
[97] Zhiyuan Lu, Yilin Wang, Wenjun Wu, Yongxiang Li, Textured Li0.95Nb0.45Ti0.7O3 Microwave Ceramics with Continuously Tunable Dielectric Properties, Ferroelectrics, 429, 123 (2012).
[98] Yali Li, Chun Hui, Mengjia Wu, Yongxiang Li, Youliang Wang, Textured (K0.5Na0.5)NbO3 ceramics prepared by screen-printing multilayer grain growth technique, Ceramics International, 38, s283-s286 (2012).
[99] 文豪,刘志甫,杨群保,李永祥,CeO2修饰的透明TiO2纳米管电极的电致变色器件,无机材料学报,27, 74-79 (2012).
[100]李亚利, 惠春, 李永祥, 王有亮,丝网印刷技术制备高性能织构化K0.45Na0.55NbO3陶瓷,无机材料学报, 27, 214-218 (2012).
[101]王依琳,杨群保,吴文骏,李永祥,赖青贵,王华岑,龙继东,陶瓷介质在固态脉冲形成线中的应用,强激光与粒子束,24,2005 (2012).
[102] Pan Wang, Yongxiang Li, Yiqing Lu, Enhanced Piezoelectric Properties of (Ba0.85Ca0.15)(Ti0.9Zr0.1)O3 Lead-free Ceramics by Optimizing Calcination and Sintering Temperature, Journal of the European Ceramic Society, 31, 2005-2012 (2011).
[103]Hao Wen, Zhifu Liu, Qunbao Yang, Yongxiang Li, Jerry Yu, Synthesis and Electrochemical Properties of CeO2 Nanoparticle Modified TiO2 Nanotube Arrays, Electrochim. Acta, 56, 2914-2918 (2011).
[104]Hao Wen, Zhifu Liu, Jiao Wang, Qunbao Yang, Yongxiang Li, Jerry Yu, Facile Synthesis of Nb2O5 Nanorod Array Films and Their Electrochemical Properties, Appl. Surf. Sci., 257, 10084-10088 (2011).
[105]Zhiyuan Lu, Yali Li, Yilin Wang, Wenjun Wu, Yongxiang Li, Anisotropic Dielectric Properties of LiNb0.6Ti0.5O3 Microwave Ceramics by Screen-Printing Templated Grain Growth, Journal of American Cermaic Society, 94, 4364-4370 (2011).
[106] Zhiyuan Lu, Yilin Wang, Wenjun Wu, Yongxiang Li, Morphology and Structure of LiNb0.6Ti0.5O3 Particles by Molten Salt Synthesis, Journal of Alloys and Compounds, 509, 9696-9701 (2011).
[107]Z. G. Yi, Y. X. Li, Y. Liu, Ferroelectric and Piezoelectric Properties of Aurivillius Phase Intergrowth Ferroelectrics and the Underlying Materials Design, Phys. Status Solidi A-Appl. Mat., 208, 1035-1040 (2011).
[108]Mengjia Wu, Youliang Wang, Dong Wang, Yongxiang Li, Enhanced electrical properties of textured NBBT ceramics derived from the screen printing technique, IEEE Trans. Ultrason. Ferroelectr. Freq. Control, 58, 2036-2041 (2011).
[109]Zhengfa Li, Yongxiang Li, Jiwei Zhai, Grain growth and piezoelectric property of KNN-based lead-free ceramics, Current Applied Physics, 11, S2-S13 (2011).
[110]Yali Li, Chun Hui, Yongxiang Li, Youliang Wang, Preparation of textured K2BiNb5O15 ceramics with rod-like templates by the screen-printing technique, Journal of Alloys and Compounds, 509, L203-L207 (2011).
[111]Yiqing Lu, and Yongxiang Li, A Review on Lead-free Piezoelectric Ceramics Studies in China, Journal of Advanced Dielectrics, 1, 269-288 (2011).
[112]X. Gao, H. Gu, Y. X. Li, Z. G. Yi, M. Ceh, K. Zagar, Structural evolution of the intergrowth bismuth-layered Bi7Ti4NbO21, Journal of Materials Science, 46, 5423-5431 (2011).
[113]Hong-zhang SONG, Hua-rong ZENG, Yong-xiang LI, Qing-rui YIN, Xing HU, Ferroic domain characterization of Ni55Mn20.6Ga24.4 ferromagnetic shape memory alloy, Trans. Nonferrous Met. Soc. China, 21, 2015-2019 (2011).
[114]Mengjia Wu, Yongxiang Li, Topochemical synthesis of plate-like Na0.5Bi0.5TiO3 templates from Bi4Ti3O12, Materials Letters, 64, 1157-1159 (2010).
[115]Yu Zhao, Yongxiang Li, Yiqing Lu, and Yilin Wang, The Formation Mechanism of Intergrowth Bismuth Layer-Structured Ferroelectric Bi4Ti3O12-CaBi4Ti4O15, Ferroelectrics, 404, 45-49 (2010).
[116]Teng Guo, Yongxiang Li, Yilin Wang, Wenjun Wu, Effect of Sr/P Ratio on the Microwave Dielectric Properties of Sr2P2O7 Ceramics, Ferroelectrics, 407, 84-92 (2010).
[117]Zhengfa Li, H. L. W. Chan, Yongxiang Li, K. W. Kwok, S. H. Choy, Anisotropic properties and crystal structure of ferroelectric Na0.5Bi4.5Ti4O15, Journal of Alloys and Compounds, 506, 70-72 (2010).
[118]X. F. Yu, Y. X. Li, K. Kalantar-Zadeh, Synthesis and electrochemical properties of template-based polyaniline nanowires and template-free nanofibril arrays: Two potential nanostructures for gas sensors, Sens. Actuator B, 136, 1-7 (2009).
[119]Yanping Long, Yilin Wang, Wenjun Wu, Dong Wang, Yongxiang Li, Sintering and Microwave Dielectric Properties of the LiNb0.63Ti0.4625O3 Ceramics with the B2O3–SiO2 Liquid-Phase Additives, Journal of American Cermaic Society, 92, 2630-2633 (2009).
[120]Y. P. Long, Y. X. Li, Y. L. Wang, W. J. Wu, Synthesis and characterization of Li–Nb–Ti–O dielectric material by the citrate sol–gel method, Journal of Alloys and Compounds, 475, 546-550 (2009).
[121]H. Z. Song, Y. X. Li, K. Y. Zhao, H. R. Zeng, S. X. Hui, G. R. Li, Q. R. Yin, G. H. Wu, Influence of stress on the magnetic domain structure in Fe81Ga19 alloys, Journal of Applied Physics, 105, 013913 (2009).
[122]H. Z. Song, Y. X. Li, K. Y. Zhao, H. R. Zeng, G. R. Li, Q. R. Yin, Scanning acoustic microscopy of ferroic materials under stress, Journal of Material Research, 24, 2173-2178 (2009).
[123]H. Z. Song, Y. X. Li, K. Y. Zhao, H. R. Zeng, S. X. Hui, G. R. Li, Q. R. Yin, Direct and simultaneous observation of ferroelectric and magnetic domains, Materials Letters, 63, 589-591 (2009).
[124]M. J. Wu, Y. X. Li, D. Wang, J. T. Zeng, Q. R. Yin, Grain oriented (Na0.5Bi0.5)0.94Ba0.06TiO3 piezoceramics prepared by the screen-printing multilayer grain growth technique, Journal of Electroceramics, 22, 131-135 (2009).
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[126]Z. Wang, W. W. Wu, Q. B. Yang, Y. X. Li, C. H. Noh, In-situ fabrication of flexible vertically integrated electronic circuits by inkjet printing, Journal of Alloys and Compounds, 486, 706-710 (2009).
[127]Z. Wang, Y. X. Li, Improvement in Dielectric Tunability of Ba0.6Sr0.4TiO4–Mg2TiO4 Composite Ceramics via Heterogeneous Nucleation Processing, Chin. Phys. Lett., 26, 117701 (2009).
[128]R. Arsat, X. F. Yu, Y. X. Li, W. Wlodarski, K. Kalantar-zadeh, Hydrogen Gas Sensor Based on Highly Ordered Polyaniline Nanofibers, Sens. Actuator B, 137, 529-532 (2009).
[129]Yongxiang Li, Xiaofeng Yu, Qunbao Yang, Fabrication of TiO2 Nanotube Thin Films and Their Gas Sensing Properties, Journal of Sensors, 2009, 402171 (2009).
[130]王卓,李永祥,杨群保,无机材料喷墨制备新方法的进展,无机材料学报 24,1090-1096 (2009).
[131]J. T. Zeng, Y. Wang, Y. X. Li, Q. B. Yang, Q. R. Yin, Ferroelectric and Piezoelectric Properties of Tungsten Doped CaBi4Ti4O15 Ceramics, Journal of Electroceramics, 21, 305-308 (2008).
[132]Yiqing Lu, Yongxiang Li, Dong Wang, Tianbao Wang, Qingrui Yin, Lead-free Piezoelectric Ceramics of (Bi1/2Na1/2)TiO3-(Bi1/2K1/2)TiO3-(Bi1/2Ag1/2)TiO3 System, Journal of Electroceramics, 21, 309-313 (2008).
[133]Y. X. Li, J. T. Zeng, X. Z. Jing, Q. R. Yin, A Novel Technique for Preparation of Grain Oriented BLSF Piezoelectric Ceramics, Journal of Electroceramics, 21, 314-318 (2008).
[134]Z. G. Yi, Y. X. Li, J. T. Zeng, Q. B. Yang, Q. R. Yin, Structure and Dielectric Properties of Bi5-xLaxNb3O15 Ceramics, Journal of Electroceramics, 21, 319-322 (2008).
[135]Y. Wang, Y. X. Li, K. Kalantar-zadeh, T. B. Wang, D. Wang, Q. R. Yin, Effect of Bi3+ ion on piezoelectric properties of KxNa1-xNbO3, Journal of Electroceramics, 21, 629-632 (2008).
[136]Z. G. Yi, Y. X. Li, Q. B. Yang, Q. R. Yin, La doping effects on intergrowth Bi2WO6-Bi3TiNbO9 ferroelectrics, Ceramics International, 34, 735-739 (2008).
[137]M. J. Wu, Y. X. Li, D. Wang, Q. R. Yin, Highly textured (Na1/2Bi1/2)0.94Ba0.06TiO3 ceramics prepared by the screen-printing multilayer grain growth technique, Ceramics International, 34, 753-756 (2008).
[138]Z. F. Liu, Y. X. Li, Sol–gel synthesis and luminescence property of ZnO:(La,Eu)Cl nanocomposite thin films, Thin Solid Films, 516, 5557-5561 (2008).
[139]Z. F. Liu, T. Yamazaki, Y. Shen, T. Kikuta, N. Nakatani, Y. X. Li, O2 and CO sensing of Ga2O3 multiple nanowire gas Sensors, Sens. Actuator B, 129, 666-670 (2008).
[140]X. F. Yu, Y. X. Li, W. Wlodarski, S. Kandasamy, K. Kalantar-Zadeh, Fabrication of nanostructured TiO2 by anodization: A comparison between electrolytes and substrates, Sens. Actuator B, 130, 25-31 (2008).
[141]L. J. Ma, Y. X. Li, X. F. Yu, N. F. Zhu, Q. B. Yang, C. H. Noh, Electrochemical preparation of PMeT/TiO2 nanocomposite electrochromic electrodes with enhanced long-term stability, J. Solid State Electrochem., 12, 1503-1509 (2008).
[142]L. J. Ma, Y. X. Li, X. F. Yu, Q. B. Yang, C. H. Noh, Using room temperature ionic liquid to fabricate PEDOT/TiO2 nanocomposite electrode-based electrochromic devices with enhanced long-term stability, Sol. Energy Mater. Sol. Cells, 92, 1253-1259 (2008).
[143]N. F. Zhu, Y. X. Li, X. F. Yu, Pechinin synthesis and luminescence properties of Y3Ga5O12(YGG):Tb thin film, Materials Letters, 62, 2355-2358 (2008).
[144]N. F. Zhu, Y. X. Li, X. F. Yu, Luminescence Spectra of YGG:RE3+, Bi3+ (RE = Eu and Tb) and Energy Transfer from Bi3+ to Re3+, Chin. Phys. Lett., 25, 703-706 (2008).
[145]H. Z. Song, Y. X. Li, K. Y. Zhao, H. R. Zeng, S. X. Hui, G. R. Li, Q. R. Yin, Contrast mechanism of magnetic domains in electron acoustic imaging, Journal of Applied Physics, 104, 094913 (2008).
[146]H. Z. Song, Y. X. Li, J. T. Zeng, G. R. Li, Q. R. Yin, Observation of magnetic domain structure in Terfenol-D by scanning electron acoustic microscopy, Journal of Magnetism and Magnetic Materials, 320, 978-982 (2008).
[147]H. Z. Song, Y. X. Li, H. R. Zeng, L. Ma, G. H. Wu, S. X. Hui, G. R. Li, Q. R. Yin, Electron acoustic imaging of Mn50Ni28Ga22 ferromagnetic shape memory alloy, Applied Physics a-Materials Science & Processing, 92, 309-311 (2008).
[148]X. F. Yu, Y. X. Li, N. F. Zhu, Q. B. Yang, K. Kalantar-zadeh, A polyaniline nanofibre electrode and its application in a self-powered photoelectrochromic cell, Nanotechnology, 18, 015201 (2007).
[149]N. F. Zhu, Y. X. Li, X. F. Yu, W. Y. Ge, Synthesis and lumnescent properties of YGG:Tb phosphors by Pechini method, J. Lumines., 122, 704-706 (2007).
[150]Mengjia Wu, Yiqing Lu, Yongxiang Li, Structural and Electrical Properties of Er2O3-Doped Na1/2Bi1/2TiO3 Lead-Free Piezoceramics, Journal of the American Ceramic Society, 90, 3642-3645 (2007).
[151]Zhiguo Yi, Yongxiang Li, Ying Wang, Qingrui Yin, Oxygen Dynamics and Diffusion Mechanism in Intergrowth Bi2WO6-Bi3TiNbO9 Ferroelectrics, Ferroelectrics, 355, 189-203 (2007).
[152]Yiqing Lu, Yongxiang Li, Dong Wang, Qingrui Yin, Morphotropic Phase Boundary and Electrical Properties of (Bi1/2Na1/2)TiO3-(Bi1/2K1/2)TiO3- (Bi1/2Ag1/2)TiO3 Ceramics, Ferroelectrics, 358 109-116 (2007).
[153]Y. Wang, Z. G. Yi, Y. X. Li, Q. B. Yang, D. Wang, Hydrothermal synthesis of potassium niobate powders, Ceramics International, 33, 1611-1615 (2007).
[154]H. Z. Song, M. M. Huang, D. L. Yang, X. Hu, Y. X. Li, Oxygen permeability of perovskite-type Y1-xMxBa2Cu3O7- (M = La, Ca) membranes, Materials Science and Engineering B-Solid State Materials for Advanced Technology, 137, 284-288 (2007).
[155]S. Chen, M. J. Wu, L. Q. An, Y. X. Li, S. W. Wang, Strong green and red upconversion emission in Er3+ doped Na1/2Bi1/2TiO3 ceramics, Journal of the American Ceramic Society, 90, 664-666 (2007).
[156]W. Y. Ge, W. L. Zhu, M. Deluca, K. S. Wan, Z. G. Yi, Y. X. Li, G. Pezzotti, Raman piezospectroscopic evaluation of intergrowth ferroelectric polycrystalline ceramic in biaxial bending configuration, Journal of Applied Physics, 101, 033501 (2007).
[157]W. Y. Ge, W. L. Zhu, M. Higashino, Y. X. Li, Z. G. Yi, G. Pezzotti, Spectrally resolved microprobe cathodoluminescence of intergrowth Bi5-xLaxTiNbWO15 ferroelectrics, Journal of Applied Physics, 102, 0761060 (2007).
[158]Z. Sadek, W. Wlodarski, Y. Li, W. Yu, X. Li, X. Yu, K. Kalantar-Zadeh, A ZnO nanorod based layered ZnO/64 YX LiNbO3 SAW hydrogen gas sensor, Thin Solid Films, 515, 8705-8708 (2007).
[159]王英,易志国,杨群保,王东,李永祥,铌酸钠粉体的水热法合成研究,无机材料学报,22,247–252 (2007).
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[161]宋红章,李永祥,殷庆瑞,铁电体中相变临界尺寸的研究现状,无机材料学报,22,583–589 (2007).
[162]X. F. Yu, Y. X. Li, W. Y. Ge, Q. B. Yang, N. F. Zhu, K. Kalantar-Zadeh, Formation of nanoporous titanium oxide films on silicon substrates using an anodization process, Nanotechnology, 17, 1-7 (2006).
[163]Z. G. Yi, Y. X. Li, Y. Wang, Q. R. Yin, Dielectric and ferroelectric properties of intergrowth Bi7-xLaxTi4NbO21 ferroelectrics, Applied Physics Letters, 88, 152909 (2006).
[164]Z. G. Yi, Y. X. Li, Y. Wang, Q. R. Yin, Two distinct dielectric relaxation mechanisms in the low-frequency range in Bi5TiNbWO15 ceramic, Applied Physics Letters, 88, 162908 (2006).
[165]Z. G. Yi, Y. Wang, Y. X. Li, Q. R. Yin, Ferroelectricity in intergrowth Bi3TiNbO9-Bi4Ti3O12 ceramics, Journal of Applied Physics, 99, 114101 (2006).
[166]Z. G. Yi, Y. X. Li, Y. Wang, Q. R. Yin, Dielectric, impedance and electric modulus spectroscopies of mixed-layer Aurivillius phase Bi5Ti1.5W1.5O15, Journal of the Electrochemical Society, 153, F100 (2006).
[167]Y. Wang, Y. X. Li, Z. G. Yi, D. Wang, Q. R. Yin, Relaxor Behaviour and Ferroelectric Properties of (Li0.12Na0.88)(Nb0.9-xTa0.10Sbx)O3 Lead-Free Ceramics, Chin. Phys. Lett., 23, 2232-2235 (2006).
[168]葛万银,李永祥,于晓峰,杨群保,TiO2纳米晶半导体电极及有机-无机电致变色器件的研究,无机材料学报,21,128–132 (2006).
[169]葛万银,李永祥,于晓峰,杨群保,一种新型的溶液型电致变色器件的研究,无机材料学报,21,503–507 (2006).
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[171]Z. G. Yi, Y. X. Li, J. T. Zeng, Q. B. Yang, D. Wang, Y. Q. Lu, Q. R. Yin, Lanthanum distribution and dielectric properties of intergrowth Bi5-xLaxTiNbWO15 ferroelectrics, Applied Physics Letters, 87, 202901 (2005).
[172]J. T. Zeng, Y. X. Li, Q. B. Yang, X. Z. Jing, Q. R. Yin, Fabrication and properties of grain oriented CaBi4Ti4O15 piezoelectric ceramics, Journal of the European Ceramic Society, 25, 2727-2730 (2005).
[173]J. T. Zeng, Y. X. Li, D. Wang, Q. R. Yin, Electrical Properties of Neodymium Doped CaBi4Ti4O15 Ceramics, Solid State Commun., 133, 553-557 (2005).
[174]J. T. Zeng, Y. X. Li, Q. B. Yang, Q. R. Yin, Ferroelectric and Piezoelectric Properties of Vanadium Doped CaBi4Ti4O15 Ceramics, Materials Science and Engineering B-Solid State Materials for Advanced Technology, 117, 241-245 (2005).
[175]D. Wang, Y. X. Li, Y. H. Xiong, Q. R. Yin, SrAl2O4: (Eu2+, Dy3+) Phosphor Thin Films Derived from the Sol-Gel Process, Journal of the Electrochemical Society, 152, H12-14 (2005).
[176]D. Wang, Y. X. Li, Q. R. Yin, M. Q. Wang, Concentration Quenching of Eu2+ in 4SrO 7Al2O3:Eu2+ Phosphor, Journal of the Electrochemical Society, 152, H15-18 (2005).
[177]Z. H. Xu, Y. X. Li, Z. F. Liu, D. Wang, UV and X-ray excited luminescence of Tb3+-doped ZnGa2O4 phosphors, Journal of Alloys and Compounds, 391, 202-205 (2005).
[178]王依琳、赵梅瑜等,低温烧结(Zr0.8Sn0.2)TiO4陶瓷晶相组成与微波介电性能,无机材料学报,20, 613-617 (2005).
[179]易志国,李永祥,杨群保,王东,陆毅青,王英,殷庆瑞,铋层状共生铁电体的研究进展,四川大学学报(自然科学版),42, 85–89 (2005).
[180]杨群保,李永祥,曾江涛,易志国,铋层状结构压电陶瓷的掺杂改性研究,四川大学学报(自然科学版),42, 225–229 (2005).
[181]李永祥,杨群保,曾江涛,易志国,多层晶粒生长法制备织构化CaBi4Ti4O15压电陶瓷,四川大学学报(自然科学版),42, 230–235 (2005).
[182]葛万银,李永祥,于晓峰,杨群保,纳米半导体电极及有机无机电致变色器件,材料导报,19, 108–112 (2005).
[183]葛万银,李永祥,于晓峰,杨群保,一种新型互补溶液型电致变色器件的研究,液晶与显示,20, 512–515 (2005).
[184]Q. B. Yang, P. L. Wang, Y. X. Li, Q. R. Yin, P. E. Werner, A. G. G. Moliterni, Y. B. Cheng, On the superstructure of KTiO2(OH), Zeitschrift Fur Kristallographie, 219, 227-230 (2004).
[185]Y. Q. Lu, Y. X. Li, Y. H. Xiong, D. Wang, Q. R. Yin, SrAl2O4: Eu2+, Dy3+ phosphors derived from a new sol–gel route, Microelectronics Journal, 35, 379-382 (2004).
[186]X. Z. Jing, Y. X. Li, Q. B. Yang, J. T. Zeng, Q. R. Yin, Influence of different templates on the textured Bi0.5(Na1-xKx)0.5TiO3 piezoelectric ceramics by the reactive templated grain growth process, Ceramics International, 30, 1889-1893 (2004).
[187]X. Z. Jing, Y. X. Li, Q. B. Yang, Q. R. Yin, Synthesis of fibrous TiO2 from layered protonic tetratitanate by a hydrothermal soft chemical process, Materials Science and Engineering B-Solid State Materials for Advanced Technology, 110, 18-22 (2004).
[188] X. Ding, Y. X. Li, D. Wang, Q. R. Yin, Fabrication of BaxSr1-xTiO3 dielectric films by the ink jet-printing, Ceramics International, 30, 1885-1887 (2004).
[189]Z. F. Liu, F. K. Shan, J. Y. Sohn, B. C. Shin, Y. S. Yu, S. C. Kim, Y. X. Li, Epitaxial growth and optimization of ZnO films by pulsed laser deposition, Journal of the Korean Physical Society, 44, 1123-1127 (2004).
[190]Z. F. Liu, F. K. Shan, J. Y. Sohn, S. C. Kim, G. Y. Kim, Y. X. Li, Y. S. Yu, Photoluminescence of ZnO: Ga thin films fabricated by pulsed laser deposition technique, Journal of Electroceramics, 13, 183-187 (2004).
[191]Z. F. Liu, Y. X. Li, Y. H. Xiong, D. Wang, Q. R. Yin, Electroluminescence of SrAl2O4:Eu2+, Microelectronics Journal, 35, 374-376 (2004).
[192]Z. F. Liu, Y. X. Li, F. K. Shan, Z. H. Xu, Y. S. Yu, Highly c-oriented nanocolumn structure ZnO films on sapphire substrate grown by pulsed laser deposition, Chin. Phys. Lett., 21, 747-749 (2004).
[193]Z. H. Xu, Y. X. Li, Z. F. Liu, Z. Xiong, Low-temperature synthesis of nanocrystalline ZnGa2O4:Tb3+ phosphors via the Pechini method, Materials Science and Engineering B-Solid State Materials for Advanced Technology, 110, 302-306 (2004).
[194] 杨群保,李永祥,殷庆瑞,王佩玲,程一兵,晶化时间对水热法制备钛酸铋纳米粉体的研究,功能材料,35, 50–52 (2004).
[195]杨群保,李永祥,殷庆瑞,王佩玲,程一兵,水热合成钛酸铋粉体的烧结性能研究,功能材料,35, 585–587 (2004).
[196]杨群保,李永祥,殷庆瑞,王佩玲,程一兵,水热合成钛酸铋粉体的烧结性能研究,硅酸盐学报,32, 259–263 (2004).
[197]杨群保,荆学珍,李永祥,王东,王天宝,无铅压电陶瓷研究的新进展,电子元件与材料,35, 56–65 (2004).
[198]曾江涛,李永祥,杨群保,殷庆瑞,压电陶瓷晶粒定向技术的研究进展,电子元件与材料,35, 66–70 (2004).
[199]Y. X. Li, A. Trinchi, W. Wlodarski, K. Galatsis, K. Kalantar-zadeh, Investigation of the oxygen gas sensing performance of Ga2O3 thin films with different dopants, Sens. Actuator B-Chem., 93, 431-434 (2003).
[200]Q. B. Yang, Y. X. Li, Q. R. Yin, P. L. Wang, Y. B. Cheng, Study on Bi4Ti3O12 nanoparticles prepared by hydrothermal synthesis, Journal of the European Ceramic Society, 23, 161-166 (2003).
[201]X. Z. Jing, Y. X. Li, Q. G. Yin, Hydrothermal synthesis of Na0.5Bi0.5TiO3 fine powders, Materials Science and Engineering B-Solid State Materials for Advanced Technology, 99, 506-510 (2003).
[202]X. Ding, Y. X. Li, D. Wang, Q. R. Yin, Preparation of (BaxSr1-x)TiO3 sols for ceramic film jet-printing, Materials Science and Engineering B-Solid State Materials for Advanced Technology, 99, 502-505 (2003).
[203] Z. F. Liu, F. K. Shan, Y. X. Li, B. C. Shin, Y. S. Yu, Epitaxial Growth and Properties of Ga-doped ZnO Films Grown by Pulsed Laser Deposition, Journal of Crystal Growth, 259, 130-136 (2003).
[204]熊煜虹,王东,陆毅青,李永祥,殷庆瑞,无机盐溶胶-凝胶工艺制备长余辉发光粉体的研究,无机材料学报,18,451–456 (2003).
[205]Y. X. Li, W. Wlodarski, K. Galatsis, S. H. Moslih, J. Cole, S. Russo, N. Rockelmann, Gas sensing properties of P-type semiconducting Cr-doped TiO2 thin films, Sens. Actuator B-Chem., 83, 160-163 (2002).
[206]D. Wang, Q. R. Yin, Y. X. Li, M. Q. Wang, Influence of B2O3 on matrix forming process and luminescent properties of SrO Al2O3:Eu2+ phosphor, Journal of the Electrochemical Society, 149, H65-67 (2002).
[207]D. Wang, Q. R. Yin, Y. X. Li, M. Q. Wang, Concentration quenching of Eu2+ in SrO Al2O3:Eu2+ phosphor, J. Lumines., 97, 1-6 (2002).
[208]D. Wang, Q. G. Yin, Y. X. Li, M. Q. Wang, Concentration quenching of Eu2+ in SrO 6Al2O3:Eu2+ phosphor, Journal of Materials Science, 37, 381-384 (2002).
[209]Q. B. Yang, Y. X. Li, Q. R. Yin, P. L. Wang, Y. B. Cheng, Hydrothermal synthesis of bismuth oxide needles, Materials Letters, 55, 46-49 (2002).
[210]杨群保,李永祥,殷庆瑞,Bi2O3晶须的的水热合成,无机材料学报,17,979–984 (2002).
[211]杨群保,李永祥,殷庆瑞,钛酸铋纳米粉体的水热合成,无机材料学报,17,1135–1140 (2002).
[212]刘志甫,李永祥,殷庆瑞,金属氧化物系电致发光材料的研究进展,功能材料,33,584–587 (2002).
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