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个人信息Personal Information
教授 博士生导师
性别:女
毕业院校:日本东京工业大学
学历:博士研究生毕业
学位:工学博士学位
在职信息:在职人员
所在单位:集成电路科学与工程学院(示范性微电子学院)
入职时间:2010-09-10
学科:电子信息材料与元器件
办公地点:电子科技大学清水河校区五号科研楼302办公室
曾获荣誉:国家级青年人才
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- [1] Crystallization and microwave dielectric properties of novel CaO-Al2O3-B2O3 glass-ceramics with different Al2O3 content, Haonan Cui, Enzhu Li*, et. al., Journal of the European Ceramic Society, 43 (2023) 7478-7484,
- [2] Improved microwave dielectric characteristics of low-firing CaO–SiO2 ceramics with LiF additive, Qian,Liu,Enzhu Li*, et. al., J. Electron. Mater., (2023), 34:375,
- [3] A novel Na1−xKxTaO3 perovskite microwave dielectric ceramic with high permittivity and high positive temperature coefficient, Liu Tang, Enzhu Li*, et. al., Journal of advanced ceramics, 2023, 12(11): 2053–2061.,
- [4] Structure, far-infrared spectroscopy, microwave dielectric properties and improved low-temperature sintering characteristics of tri-rutile Mg0.5Ti0.5TaO4 ceramics, Hongyu Yang, Enzhu Li*, et. al., Journal of advanced ceramics, 12(2): 296–308.,
- [5] Phase structure, bond traits, and intrinsic dielectric response of NiTa2O6eTiO2 microwave dielectric ceramics investigated by bond theory and vibrational spectroscopy, Hongyu Yang, Enzhu Li*, et. al., Journal of materials research and technology, 25 (2023) :1364-1375.,
- [6] Realizing high energy density and superior charge-discharge characteristics in NN-10BT-based ceramics, Hua Wang, Enzhu Li*, et. al., Ceramic International, 48 (2022),
- [7] Achieving ultrahigh energy storage density and efficiency in 0.90NaNbO3–0.10BaTiO3 ceramics via a composition modification strategy, Hua Wang, Enzhu Li*, et. al., Dalton Transactions, 51(26): 10085-10094 (2022),
- [8] SnO2 doping effects on the phase constitution and microwave dielectric properties of a Co0.5Ti0.5NbO4 system, Yuchen Wang, Enzhu Li*, et. al., Ceramic International, 48,17433-17439 (2022),
- [9] Synthesis of a low-firing BaSi2O5 microwave dielectric ceramics with low dielectric constant, Pei Wu, Enzhu Li*, et. al., Ceramic International, 48,17289-17297(2022).,
- [10] Synthesis of low temperature firing scheelite-type BaWO4 microwave dielectric ceramics with high performances, Lin Gui, Enzhu Li*, et. al., Ceramic International, 48, 1 pp.1360-1365 (2022),
- [11] Crystal structure, phase transition, vibrational spectra, and microwave dielectric characteristics of Ta5+ ionic substituted Co0.5Ti0.5NbO4 ceramics, Hongyu Yang, Enzhu Li*, et. al.,Ceramic International, 48, 1 pp. 648-655 (2022),
- [12] Structure, microwave dielectric properties, and THz spectrum of Co0.5Sn0.5TaO4 ceramics, Hongyu Yang, Enzhu Li*, et. al.,Material Letters, 306, 1,130917 (2022),
- [13] The latest process and challenges of microwave dielectric ceramics based on pseudo phase diagrams, Hongcheng Yang, Enzhu Li*, et. al.,journal of advanced ceramics, 10(5): 885–932(2021),
- [14] Synthesis of CaAl2xB2O4+3x: Novel microwave dielectric ceramics with low permittivity and low loss, Hongcheng Yang, Enzhu Li*, et. al.,Journal of the European Ceramic Society, 41. pp2596–2601(2021),
- [15] Usage of P–V–L bond theory in studying the structural/property regulation of microwave dielectric ceramics: a review, Hongyu Yang, Enzhu Li*, et. al.,Inorganic Chemistry Frontiers, 7 4711 (2020),
- [16] Novel temperature stable NiSnTa2O8 microwave dielectric ceramics with trirutile structure, Enzhu Li*, et. al.,Ceramics International,46 (5) (2020),
- [17] Influence of Zn0.5Ti0.5NbO4 on the structure and microwave dielectric properties of ZrTiO4 ceramics, Qiu Yang,Enzhu Li*, et. al.,Ceramics International,46 (4) (2020),
- [18] Gd2Zr3(MoO4)9 microwave dielectric ceramics with trigonal structure for LTCC application, Hongcheng Yang, Enzhu Li*, et. al.,103(2):1131-1139(2020),
- [19] Crystal chemistry, Raman spectra and bond characteristics of trirutile-type Co0.5Ti0.5TaO4 microwave dielectric ceramics, Hongyu Yang, Enzhu Li*, et. al.,Inorganic Chemistry, 45 (2019),
- [20] Intrinsic dielectric properties of columbite ZnNb2O6 ceramics studied by P-V-L bond theory and Infrared spectroscopy, Hongyu Yang, Enzhu Li*, et. al.,Journal of the American Ceramic Society, 102 (9) (2019),