周晓华 邮箱：zxh@uestc.edu.cn
电话：
系别：微电子与固体电子系
职称：副教授
教师个人主页：


教师简介
周晓华，男，博士，副教授。1971年出生，长期从事MLC片式电容器、LTCC介质材料及器件、封装材料、玻璃陶瓷材料及LTCC相关器件的研究，并作出了许多创新性研究和工作。“八五”期间，作为主要完成人之一承担四项江苏省攻关计划，一项部级项目；“九五”期间，作为项目负责人之一完成部预研项目一项；“十五”期间，作为项目负责人之一，承担部预研项目一项，完成国家“863”项目一项，完成型号项目两项；“十一五”期间，作为项目负责人，承担部预研项目一项，完成科工局重点项目一项；目前承担多项重点项目；发表相关论文30多篇；并获多项科研奖励。

(1) 教育背景：
1988.09－1992.06 南京化工学院，无机非金属材料专业，工学学士学位。
2001.03－2008.11 电子科技大学，材料物理与化学专业，工学博士学位。

(2) 工作履历:
1992.07－1998.06 江苏省陶瓷研究所
1998.09－2012.07 电子科技大学，讲师
2012.07－至今 电子科技大学，副教授

(3) 荣誉奖励:
2011 国防科技进步一等奖
2006 国防科技进步二等奖
2004 教育部科技进步一等奖
科学研究
研究领域：电子材料及器件、材料化学与工程
研究内容1：LTCC基板材料的制备与研究、LTCC微波介质陶瓷、铁电陶瓷的性能研究、微波陶瓷的制备与研究、半导体陶瓷材料及器件。
研究内容2：低温共烧陶瓷封装材料、玻璃陶瓷材料、介质器件及工艺。




近期代表性论文：


1. Effect of Excess Li Content on the Microwave Dielectric Properties of the M-Phase of Li2O-Nb2O5-TiO2 Ceramics. Journal of Electronic Materials, 2014. 43(11): 3954-3958.
2. Effect of TiO2 and Al2O3 doping on sintering behavior and microwave dielectric properties of Ba4(Sm0.5Nd0.5) 28/3Ti18O54 ceramics. Journal of Materials Science: Materials in Electronics, 2014. 25(10): 4439-4443.
3. Sintering behavior and microwave dielectric properties of TiO2 added Ba4(Sm0.5Nd0.5) 28/3Ti18O54 ceramics with Li2O–Al2O3–B2O3 glass addition. Journal of Materials Science: Materials in Electronics, 2014. 25(11): 4750-4754.
4. Preparation and properties of low temperature sintered CaO-B2O3-SiO2 microwave dielectric ceramics using the solid-state reaction. Materials Science-Poland, 2013. 31(3): 404-409.
5. Densification and microwave properties of low-temperature co-fired CaO–B2O3–SiO2 glass-ceramic with La–B–Si additions. International Journal of Materials Research, 2013. 104(6): 606-608.
6. Phase structure and microwave dielectric properties of Mn-doped (1? x) ZrTi2O6–xZnNb2O6 (x= 0.13–0.53) ceramics. Journal of Materials Science: Materials in Electronics, 2013. 24(1): 418-422.
7. The influence of Cu substitution on the microwave dielectric properties of BaZn2Ti4O11 ceramics. Journal of Alloys and Compounds, 2013. 551: 463-467.
8. Phase structure and microwave dielectric properties of Zr (Zn1/3Nb2/3) xTi2? xO6 (0.2≤ x≤ 0.8) ceramics. Journal of Materials Science: Materials in Electronics, 2013. 24(5): 1475-1479.
9. Influence of Li-B-Si Additions on the Sintering and Microwave Dielectric Properties of Ba-Nd-Ti Ceramics. Journal of electronic materials, 2013. 42(12): 3519-3523.
10. Effects of La2O3–B2O3 on the flexural strength and microwave dielectric properties of low temperature co-fired CaO–B2O3–SiO2 glass–ceramic. Ceramics International, 2012. 38(7): 5551-5555.
11. Effects of ZnO and CeO2 additions on the microstructure and dielectric properties of Mn-modified (Bi0.5Na0.5)0.88 Ca0.12TiO3 ceramics. Journal of Materials Science: Materials in Electronics, 2012. 23(1): 309-314.
12. Improved High‐Q Microwave Dielectric Ceramics in CuO‐Doped BaTi4O9–BaZn2Ti4O11 System. Journal of the American Ceramic Society, 2012. 95(6): 1939-1943.
13. Microwave dielectric properties of BaO–2(1?x) ZnO–xNd2O3–4TiO2 ( x= 0–1.0) ceramics. Ceramics International, 2012. 38(1): 613-618.
14. The effect of Mn addition on phase development, microstructure and microwave dielectric properties of ZrTi2O6–ZnNb2O6 ceramics. Materials Letters, 2012. 80: 124-126.
15. Characterization and analysis of CaO–SiO2–B2O3 ternary system ceramics. Journal of Materials Science: Materials in Electronics, 2011. 22(4): 389-393.
16. Dielectric and microwave properties of ZrO2 doped CaO–SiO2–B2O3 ceramic matrix composites. Journal of Alloys and Compounds, 2011. 509(11): 4260-4263.
17. Preparation and properties of the barium borate glassy matrix composite materials containing fused silica and monoclinic zirconia. Journal of Alloys and Compounds, 2011. 509(14): 4848-4853.
18. Low temperature preparation of the Zn2SiO4 ceramics with the addition of BaO and B2O3. Journal of Materials Science: Materials in Electronics, 2011. 22(9): 1274-1281.
19. Thermal and dielectric properties of the LTCC composites based on the eutectic system BaO–Al2O3–SiO2–B2O3. Journal of Materials Science: Materials in Electronics, 2011. 22(3): 238-243.
20. Quantitative analysis of crystalline and remaining glass phases in CaO–B2O3–SiO2 ternary system glass ceramics. Journal of Alloys and Compounds, 2010. 506(2): 757-760.




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