1.基本情况

姓名：李纯纯

性别：男

学位：博士

职称：讲师

2.专业学习/工作经历

一、教育与工作经历

2003.09~2007.07 山东建筑大学，攻读学士学位；

2007.09~2009.12 武汉理工大学，攻读硕士学位；

2010.09~2014.09 西安交通大学，电子信息与工程学院，电子科学与技术专业，攻读博士学位；

2013.02~2014.02 伦敦大学玛丽女王学院，联合培养博士研究生；

2014.10~至今 桂林理工大学信息与科学工程学院

二、科学研究工作

长期从事微波介质材料及相关器件的研究工作，研究方向包括微波介质材料(microwave dielectric materials)、低温共烧陶瓷技术(low temperature co-fired ceramics technology)、压敏电阻（varistor）。主持国家自然科学基金（青年基金）项目1项，主持广西自然科学基金（青年基金）1项，作为主要成员参与国家自然科学基金面上项目和地区项目3项，并作为骨干成员参与广西自然科学基金创新团队项目。在国内外学术刊物正式发表论文50余篇，其中48篇被SCI收录。申请中国发明专利10余项，授权2项。

以第一作者发表文章11篇：

1) Chunchun Li, Xiaoyong Wei, Liang Fang, Haixue Yan, Michael J. Reece, Dielectric relaxation and electrical conductivity in Ca5Nb4TiO17 ceramics, Ceramics International, 2015, 41(8): 9923-9930.

2) Chunchun Li, Xiaoyong Wei, Haixue Yan, M. J. Reece. Microwave dielectric properties of La3Ti2TaO11 ceramics with perovskite-like structure. Journal of the European Ceramic Society, 2012, 32 (16): 4015-4012.

3) Chunchun Li, Xiaoyong Wei. Complex impedance analysis on a layered perovskite-like ceramic: La3Ti2TaO11. Journal of Material Science, 2012, 47 (9): 4200-4204.

4) Chunchun Li, Xiaoyong Wei, Haixue Yan, M. J. Reece, Hongjun Ye. Microwave dielectric properties of CaO–La2O3–Nb2O5–TiO2 ceramics. Journal of Materials Science Materials in Electronics, 2013, 24 (6): 1947-1954.

5) Chunchun Li, Xiaoyong Wei, Haixue Yan, M. J. Reece. Effects of zinc substitution on the dielectric properties of Ca5Nb4TiO17 microwave ceramics. Journal of Advanced Dielectrics, 2013, 3 (4): 1320003 (1-5).

6) Chunchun Li, Liang Fang, Xiyang Peng, Changzheng Hu. Characterization and dielectric properties of Sr4M2Ti4Ta6O30 (M=Pr and Eu) ceramics. Journal of Alloys and compounds, 2010, 500 (1): L9-L11.

7) Chunchun Li, Jibran Khaliq, Huanpo Ning, Xiaoyong Wei, Haixue Yan, and Michael J. Reece. Study on properties of tantalum-doped La2Ti2O7 ferroelectric ceramics. Journal of Advanced Dielectrics, 2015, 5 (1): 1550005 (1-9).

8) Chunchun Li, Huaicheng Xiang, Liang Fang. Phase Transition and Microwave Dielectric Properties of Low-Temperature Sintered BiCu2VO6 Ceramic and its Chemical Compatibility with Silver. Journal of Electronic Materials, 2016, 45(1): 262-266.

9) Chunchun Li, Huaicheng Xiang, Hao Luo, Ying Tang, Liang Fang. Characterization and microwave dielectric properties of BiCa2VO6 ceramic. J Mater Sci: Mater Electron, 2015, 26: 9546–9551.

10) Chunchun Li, Zhenhai Wei, Hao Luo, Liang Fang. Sintering behavior and microwave dielectric properties of LiMVO4 (M = Mg, Zn). J Mater Sci: Mater Electron, 2015, 26: 9117–9121.

11) Chunchun Li, Xiaoyong Wei, Liang Fang. Dielectric and complex impedance analysis of Sr5Nb4TiO17 ceramic with perovskite-like structure. J Mater Sci: Mater Electron, 2015, 26: 8714–8719.

以共同通讯作者发表文章11篇：

12) Liang Fang*, Huanhuan Guo, Weishuang Fang, Zhenhai Wei, Chunchun Li*, BaTa2V2O11: A novel low fired microwave dielectric ceramic, Journal of the European Ceramic Society, 2015, 35: 3765-3770.

13) Ying Tang, Weishuang Fang, Liang Fang*, Chunchun Li*, Phase transformation and microwave dielectric properties of Ba4LiTa3−xSbxO12, Ceramics International 2015, 41(5): 6653-6656.

14) Huanhuan Guo, Liang Fang*, Xuewen Jiang, Fengqi Lu, Chunchun Li*, Li2Zn2W2O9: A novel low-temperature sintering microwave dielectric ceramic with corundum structure. Ceramics International, 2016, 42: 5553–5557.

15) Xuewen Jiang, Liang Fang*, Huaicheng Xiang, Huanhuan Guo, Jie Li, Chunchun Li*. A novel low-firing microwave dielectric ceramic NaMg4V3O12 and its chemical compatibility with silver electrode. Ceramics International,2015, 41: 13878–13882.

16) Huanhuan Guo, Liang Fang*, Xuewen Jiang, Jie Li, Fengqi Lu, Chunchun Li*, A Novel Low-Firing and Low Loss Microwave Dielectric Ceramic Li2Mg2W2O9 with Corundum Structure. Journal of the American Ceramic Society, 2015, 98[12]: 3863–3868.

17) Jie Li, Liang Fang*, Hao Luo, Jibran Khaliq, Ying Tang, Chunchun Li*. Li4WO5: A temperature stable low-firing microwave dielectric ceramic with rock salt structure. Journal of the European Ceramic Society, 2016,36: 243–246.

18) Huaicheng Xiang, Xuewen Jiang, Liang Fang*, Zhenhai Wei, Chunchun Li*. Microwave dielectric properties of temperature stable (1-x)BaCaV2O7–xTiO2 composite ceramics. J Mater Sci: Mater Electron, 2015, 26: 9134–9138.

19) Hao Luo, Jie Li, Jungu Xu, Liang Fang*, Ying Tang, Chunchun Li*. A novel low-firing BiZn2VO6 microwave dielectric ceramic with low loss. J Mater Sci: Mater Electron, 2016, 27: 210–214.

20) Liang Fang*, Zhenhai Wei, Huanhuan Guo, Yihua Sun, Ying Tang, Chunchun Li*. Phase composition and microwave dielectric properties of low-firing Li2A2W3O12 (A = Mg, Zn) ceramics. J Mater Sci: Mater Electron, 2015, 26: 5892–5895.

21) Huaicheng Xiang, Liang Fang*, Xuewen Jiang, Chunchun Li*. Low-firing and microwave dielectric properties of Na2YMg2V3O12 ceramic. Ceramics International, 2016, 42: 3701–3705.

22) Jie Li, Liang Fang*, Hao Luo, Ying Tang, Chunchun Li*. Structure and Microwave dielectric properties of a novel temperature stable low-firing Ba2LaV3O11 ceramic. Journal of the European Ceramic Society, 2016, online.

以第二作者发表文章5篇：

23) Xuewen Jiang, Chunchun Li, Congxue Su, Zhenhai Wei, Liang Fang. Low temperature firing and microwave dielectric properties of BaCaV2O7 ceramics. Ceramics International, 2015, 41: 5172–5176.

24) Jie Li, Chunchun Li, Zhenhai Wei, Ying Tang, Congxue Su, and Liang Fang. Microwave Dielectric Properties of a Low-Firing Ba2BiV3O11 Ceramic. Journal of the American Ceramic Society, 2015,98[3]: 683–686.

25) Liang Fang, Chunchun Li, Xiyang Peng, Changzheng Hu, Bolin Wu. Sr4-mLamTim-1Ta4-mO12 (m=1, 2, and 3): A Novel Series of A4B3O12 Type Microwave Ceramics with High-Q and Low τf. Journal of the American Ceramic Society, 2010, 93 (7): 1884-1887.

26) Liang Fang, Chunchun Li, Xiyang Peng, Changzheng Hu, Bolin Wu, Huanfu Zhou. Ba4LiNb3-xTaxO12 (x=0~3): A Series of High-Q Microwave Dielectrics from the Twinned 8H Hexagonal Perovskites. Journal of the American Ceramic Society, 2010, 93 (5): 1229-1231.

27) Liang Fang, Chunchun Li, Xiyang Peng, Changzheng Hu, Bolin Wu. Two novel A4B3O12 type microwave ceramics with High-Q and near-zero τf. Journal of Materials Research, 2010, 25 (7): 1239-1242.