任鑫
姓名:任鑫
职务/职称:副研究员
邮箱:renxin108@shu.edu.cn
电话:15921549906
研究领域:电压敏陶瓷电阻及器件;大能量释能线性陶瓷电阻;陶瓷芯片封装与封接材料
教育经历:2006-2011年,上海交通大学与剑桥大学联合培养博士
工作经历:2011年-至今 古天乐代言太阳集团
代表性科研项目:
上海铂源微电子有限公司, 用于集成电路封装的陶瓷材料开发研究, 2023(科合)00 099
华为技术有限公司,新型压敏电阻制备及包封技术研究项目, 2020 (科合) 00 144
国网电力科学研究院武汉南瑞有限责任公司,± 1100kV 特高压直流输电线路雷电防护关键技术研究及应用, 2020 (科合) 03 090
国家自然科学基金国际合作交流基金、ZnO基树形杂化太阳能电池的研究,51311130128
国家自然科学基金青年基金,“ZnO树状纳米阵列与共形结构杂化太阳能电池的设计、制备及性能研究”, 51202140
上海市自然科学基金面上项目,“ZnO压敏电阻的晶界势垒结构与直流老化机理研究及性能改进”, 17ZR1410300
代表性学术论文:
通讯或一作
1. Multifaceted improvement of varistors by PVA for desired electrical properties,J Mater Sci: Mater Electron (2024) 35:217
2. Effects of refining methods and time on suspension, microstructure, and electrical properties of ZnO varistors, J Mater Sci: Mater Electron (2023) 34:597
3. Improvement of current withstand capacity of high gradient ZnO varistors,Ceramics International 48 (2023) 36585–36592
4. Effect of NiO doping on grain growth and electrical properties of ZnO-based varistors,Journal of the European Ceramic Society 42 (2022) 3898–3904
5. High improvement of degradation behavior of ZnO varistors under high current surges by appropriate Sb2O3 doping, Journal of the European Ceramic Society 41 (2021) 436–442
6. A unique tuning effect of Mg on grain boundaries and grains of ZnO varistor ceramics, Journal of the European Ceramic Society 41 (2021) 2633–2640
7. Effectively enhanced comprehensive electrical performance of ZnO varistors by a fast combinatorial refinement method, Materials Science in Semiconductor Processing 133 (2021) 105945
8. Effects of dispersant content and pH on dispersion of suspension, microstructures and electrical properties of ZnO varistors, Ceramics International, 46 (2020) 14134–14142
9. Effects of sizes of additive particles on dispersion of mixed suspensions, microstructures and comprehensive electrical properties of ZnO varistors, J Am Ceram Soc. 2020;103:3265–3272.
10. Effects of SiO2/Cr2O3 ratios on microstructures and electrical properties of high voltage gradient ZnO varistors, J Mater Sci: Mater Electron (2019) 30:12113-12121
(最后更新日期:2024.4.17)
任鑫
姓名:任鑫
职务/职称:副研究员
邮箱:renxin108@shu.edu.cn
电话:15921549906
研究领域:电压敏陶瓷电阻及器件;大能量释能线性陶瓷电阻;陶瓷芯片封装与封接材料
教育经历:2006-2011年,上海交通大学与剑桥大学联合培养博士
工作经历:2011年-至今 古天乐代言太阳集团
代表性科研项目:
上海铂源微电子有限公司, 用于集成电路封装的陶瓷材料开发研究, 2023(科合)00 099
华为技术有限公司,新型压敏电阻制备及包封技术研究项目, 2020 (科合) 00 144
国网电力科学研究院武汉南瑞有限责任公司,± 1100kV 特高压直流输电线路雷电防护关键技术研究及应用, 2020 (科合) 03 090
国家自然科学基金国际合作交流基金、ZnO基树形杂化太阳能电池的研究,51311130128
国家自然科学基金青年基金,“ZnO树状纳米阵列与共形结构杂化太阳能电池的设计、制备及性能研究”, 51202140
上海市自然科学基金面上项目,“ZnO压敏电阻的晶界势垒结构与直流老化机理研究及性能改进”, 17ZR1410300
代表性学术论文:
通讯或一作
1. Multifaceted improvement of varistors by PVA for desired electrical properties,J Mater Sci: Mater Electron (2024) 35:217
2. Effects of refining methods and time on suspension, microstructure, and electrical properties of ZnO varistors, J Mater Sci: Mater Electron (2023) 34:597
3. Improvement of current withstand capacity of high gradient ZnO varistors,Ceramics International 48 (2023) 36585–36592
4. Effect of NiO doping on grain growth and electrical properties of ZnO-based varistors,Journal of the European Ceramic Society 42 (2022) 3898–3904
5. High improvement of degradation behavior of ZnO varistors under high current surges by appropriate Sb2O3 doping, Journal of the European Ceramic Society 41 (2021) 436–442
6. A unique tuning effect of Mg on grain boundaries and grains of ZnO varistor ceramics, Journal of the European Ceramic Society 41 (2021) 2633–2640
7. Effectively enhanced comprehensive electrical performance of ZnO varistors by a fast combinatorial refinement method, Materials Science in Semiconductor Processing 133 (2021) 105945
8. Effects of dispersant content and pH on dispersion of suspension, microstructures and electrical properties of ZnO varistors, Ceramics International, 46 (2020) 14134–14142
9. Effects of sizes of additive particles on dispersion of mixed suspensions, microstructures and comprehensive electrical properties of ZnO varistors, J Am Ceram Soc. 2020;103:3265–3272.
10. Effects of SiO2/Cr2O3 ratios on microstructures and electrical properties of high voltage gradient ZnO varistors, J Mater Sci: Mater Electron (2019) 30:12113-12121
(最后更新日期:2024.4.17)