王秀宇,男,博士,天津大學微電子學院副教授。
基本介紹
- 中文名:王秀宇
- 學位/學歷:博士
- 職業:教師
- 專業方向:電子功能材料與器件及可靠性
- 任職院校:天津大學微電子學院
工作經歷,主講課程,研究方向,學術成果,發表論文,科研項目,專利成果,榮譽獎項,
工作經歷
2007.4-2016.12, 天津大學電子信息工程學院
2016.12-至今, 天津大學微電子學院
主講課程
《固體物理》(本)
《微電子可靠性原理》(本)
《微電子工藝技術》(本)
《積體電路工藝技術》 (碩)
研究方向
電子功能材料與器件(功能高分子複合材料與電子封裝、電子封裝材料與可靠性、半導體光電氣敏特性器件與集成、UV光電探測器、CMOS圖像感測器及系統等)
學術成果
發表論文
[1] XiuyuWang, Heng Li H, Xuantong Zhu et al. Improving ethanol sensitivity of ZnSnO3
sensor at low temperature with multi-measures: Mg doping, nano-TiO2 decoration and UV radiation [J]. Sensors and Actuators B: Chemical, 297(2019): 126745.
[2] XiuyuWang, Mengzhen Xia, Heng Li et al. Preparation of transparent amorphous ZnSnO3 cubic nanoparticles and light-induced homostructures: Application in UV sensor and room-temperature gas sensor [J]. Applied Surface Science, 493(2019): 862–872.
[3] XiuyuWang, YanpengLiu, BonanDing et al, Influence of the addition of nano-TiO2 and ZnO on the sensing performance of micro-ZnSnO3 ethanol sensors under UV illumination, Sensors and Actuators B: Chemical, 276 (2018) 211–221.
[4] XiuyuWang, BonanDing, YanpengLiu et al, Synthesis of 3D flower-like ZnSnO3 and improvement of ethanol-sensing properties at room temperature based on nano-TiO2 decoration and UV radiation, Sensors and Actuators B: Chemical, 264( 2018) 119-127.
[5] Xiuyu Wang, Mingxiu Li, Bonan Ding et al, UV-enhanced ethanol-sensing properties of TiO2-decorated ZnSnO3 hollow microcubes at low temperature. Journal of Materials Science: Materials in Electronics, 28(2017) 12399–12407.
[6] X.Y. Wang, Y.P. Liu, B.N. Ding et al, Mechanism on M (M=Ni, Mo, Ni-Mo) as deep level impurity reducing the TCR of Si-rich CreSi resistive films. Superlattices and Microstructures, 109(2017) 217–229.
[7]Xiuyu Wang, Tongning Chen, Mingxiu Li et al. Preparation and characteristics of polyimide/CaMoO4 nanocomposites with enhanced dielectric performance and thermal stability. Journal of Materials Science: Materials in Electronics, 28(2017) 5215–5221.
[8] X.Y. Wang, Q. Cheng, X.P. Ma et al,Improvement of reliability for high-ohmic Cr–Si thin film resistors in a heat and humid environment: Removing moisture source by electrocatalytic decomposition of water. Microelectronics Reliability, 60(2016)101–108.
[9] X.Y. Wang, H. Zhang, X.P. Ma et al,Degradation behavior and mechanism of polymer films for high-ohmic resistor protection in a heat and humid environment. Microelectronics Reliability, 57 (2016) 79–85.
[10]Xiaopin Ma, Xiuyu Wang, Mingxiu Li et al, ?A highly conductive poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) film with the solvent bath treatment by dimethyl sulfoxide as cathode for polymer tantalum capacitor. Chemical Physics Letters, 654(2016) 86–91.
[11] Xiaopin Ma, Xiuyu Wang, Mingxiu Li et al, Improved Performances of Solid Tantalum Electrolytic Capacitors Using EG-treated PEDOT:PSS Conducting Polymer as Cathode Electrodes, Chemistry Letters, 45(2016)717–719.
[12] Hao Zhang,Xiuyu Wang,Qiang Cheng et al,Preparation of Li2MoO4 using aqueous solution method and microwave dielectric properties after sintering,Journal of Materials Science:Materials in Electronics, 27(2016)5422–5426.
[13] X.Y. Wang, J.X. Ma, C.G. Li et al, Thermosetting polyimide resin matrix composites with interpenetrating polymer networks for precision foil resistor chips based on special mechanical performance. Applied Surface Science,299(2014)73–80.
[14] X.Y. Wang, J.X. Ma, C.G. Li et al, Structure and electrical properties of quaternary Cr-Si-Ni-W films prepared by ion beam sputter deposition. Journal of Alloys and Compounds,604(2014)12–19.
[15] X.Y. Wang, C.G. Li, J.X. Ma et al, Deposition of Cr-Si-Ni-Mo films at a low sputtering current and performance of heat and humid resistance. Applied Surface Science,289(2014) 539–544.
科研項目
(1)國家自然科學基金項目,基於電催化反應Ni-W、Ni-Mo 提高Cr-Si 高阻薄膜耐濕熱性能研究”,項目負責人;
(2)安徽省科委, 精密金屬膜電阻器用耐高溫高濕塗料的研製及套用,項目負責人;
(3)新型精密片式薄膜固定電阻器,第三參與人;
(4)天津科委,薄膜電阻器、薄膜積體電路用磁控濺射靶材產業化科技攻關
專利成果
(1) 耐高溫、耐高濕塗料用於金屬膜電阻器的封裝工藝方法, ZL 200910068486.1,第一發明人(已轉化,並獲2011年天津市專利金獎);
(2) 精密金屬箔電阻晶片用耐高溫粘箔複合膠及其製備方法,ZL 201210147157.8, 第一發明人(已轉化);
(3) 金屬膜電阻器用耐高溫、耐高濕塗料及其製備方法, ZL 200910068254.6,第一發明人;
(4) 耐高溫消融與透波塗料及其製備方法, ZL 200810151339.6,第一發明人;
(5) 金屬膜電阻器用耐濕熱丙烯酸/酚醛樹脂/nano-SiO2塗料及其製備方法,ZL200910228922.7,第一發明人;
(6) 具有高熱穩定性和低TCR的富矽Cr-Si基電阻膜及其製備方法,ZL201310537486.8,第一發明人;
(7) 基於電催化性能提高Cr-Si高阻膜電阻器耐濕熱性能的方法,ZL 201410699102.7,第一發明人;
(8) 一種提高精密金屬膜電阻耐濕熱性能的塗料及其製備方法,ZL 201510485875.X,第一發明人;
(9) 一種提高鉬酸鋰微波介質陶瓷品質因數的製備方法,ZL 201610044701.4,第一發明人;
(10) 提高聚噻吩固體鉭電容器性能一致性的真空控制裝置,ZL 01510859851.6,第一發明人;
榮譽獎項
(1) 年天津市科技進步二等獎,排名第2,證書編號:2010JB-2-021-R2. 獲獎項目名稱:高穩定金屬膜電阻器用磁控濺射中高阻靶材及專用塗料
(2) 年天津市專利獎金獎,排名第1,證書編號:2011-ZJ-010-01. 獲獎項目名稱:耐高溫、耐高濕塗料用於金屬膜電阻器的封裝工藝方法
