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一、团队成员及分工

 

汤乃云,教授,硕士研究生导师。主要研究方向为集成电路与器件设计

刘伟景,副教授,硕士研究生导师。主要研究方向为集成电路与器件设计

阮颖,副教授,硕士研究生导师。主要研究方向为集成电路与系统设计

杨芳,副教授,硕士研究生导师。主要研究方向为光电信息器件及系统研发

宋小军,副教授,硕士研究生导师。主要研究方向为自动驾驶算法及系统研究

 

二、团队主要研究方向

 

聚焦集成电路与器件、电力芯片及系统应用,侧重核心器件物理层设计、后摩尔时代新型器件研发,产业标准器件模型研发,具体包括:

[1] VLSI核心器件直流、射频模型、波动性及统计模型等;互连寄生参数提取及建模;

[2] 各种模型参数提取所需的测试结构及测试电路设计;

[3] 国产替代PDK开发;

[4] 硅基新型器件GAA/TFET等器件预言、关键工艺模拟设计、单元电路设计;

[5] GaN\SiC\GaO功率器件及系统研发;

[6] 先进微纳光电信息器件与电路模拟及系统研发 (仿真+微纳加工流片);

[7] 自动驾驶算法及系统研究。

 

四、  已承担科研项目

 

  近五年来,主持与参与国家自然基金项目、上海市自然科学基金、上海市地方能力建设项目、上海科委软科学课题等省部级项目及开放课题10余项

 

五、近5年代表性论文情况

1.    Chen, Xidong, Tang, Naiyun*, Mahmoud, Mohamed H., Altinawi, Amir, Electrical and Electronic Properties of Magnesium/Molybdenum Disulfide Heterojunction Field Effect Transistors: A Theoretical Study. Science of Advanced Materials 2023, 15(7): 863-871. 

2.    Chen, Hui*, Tang, Naiyun, Zuo, Zhipeng*, Improvement and Reduction of Self-Heating Effect in AlGaN/GaN HEMT Devices. Journal of Sensors 2022. 

3.    Li, Bing, Tang, Naiyun*, Study on Zr, Sn, Pb, Si and Pt doped TiO<sub>2</sub> photoanode for dye-sensitized solar cells: The first-principles calculations. Chemical Physics Letters 2022, 799.

4.    Zhou, Rouwei, Zhang, Wei, Tang, Naiyun*. The study of ZnO/InGaAs solar cells and three methods to enhance the performances. Optical Materials 2022, 127. 

5.    Zuo, Zhipeng*, Tang, Naiyun, Chen, Hui. Analysis and improvement of self-heating effect based on GaN HEMT devices. Materials Research Express 2022, 9(7). 

6.    Jin, Xin*, Tang, Naiyun, ZnO as an anti-reflective layer for GaAs based heterojunction solar cell. Materials Research Express 2021, 8(1). 

7.    Tang, Naiyun*, Du, Chen, Wang, Qianqian, Xu, Haoran, Strain engineering in bilayer WSe2 over a large strain range. Microelectronic Engineering 2020, 223. 

8.    Wang, Hui and Naiyun Tang*, A modified TCAD simulation model for a-InGaZnO based ISFETs on GaAs substrate for pH sensing applications. Materials Research Express 2021, 8(9). 

9.    Zhang, Wei* and Naiyun Tang, Comparative study of ZnMgO/GaAs and ZnMgO/Si solar cells. Materials Research Express 2020, 7(10).  

10.Shan, Yabing, Wang, QianQian, Tang, Naiyun*, Hu, Laigui, Tian, Pengfei, Cao, Gaoqi, Qiu, Zhi-Jun, Cong, Chunxiao, Fabrication of Uniform Gold Nanopatterns on Graphene by Using Nanosphere Lithography. Journal of Nanoscience and Nanotechnology 2019, 19(5): 2851-2855.

11.Wanyang xiao, Liang Wang, Yu Peng, Yafei Ding, Yingjie Ma, Fang Yang*, Weijing Liu*, Zimiao Zhao, Jie Xu, Min Tang, Wei Bai, Xiaodong Tang, Improvement of C-shaped pocket TFET with sandwiched drain for ambipolar performance and analog/RF performance, microelectronics Journal, 2024, 148,106211  (JCR Q3, IF:2.2, cited:0

12.Zimiao Zhao, Zixin Chen, Weijing Liu*, Naiyun Tang, Jiangnan Liu, Xiating Liu, Xuanlin Li, Xinfu Pan, Min Tang, Qinghua Li, Wei Bai, and Xiaodong Tang, Ambipolar performance improvement of the C-shaped pocket TFET with dual metal gate and gate-drain underlap, Chinese Physics B 2023 32: 108502. (JCR Q3, IF:1.7, cited:0

13.Xuanlin Li, Weijing Liu*, and Qinghua Li, Investigation of Breakdown in Vertical E-Mode Ga2O3 MOSFET with Different Structural Parameters, Journal of Nanoelectronics and Optoelectronics 2023 18(4): 408-416. (JCR Q4, IF:0.6, cited:0

14.Weijing Liu*, Xinfu Pan, Jiangnan Liu and Qinghua Li, Investigation of Electro-Thermal Performance for TreeFET from the Perspective of Structure Parameters, Electronics 2023 12: 1529.      (JCR Q2, IF:2.9, cited:0

15.Xuanlin Li, Jie Xu and Weijing Liu*, Suppression of hot electron effect in AlGaN/GaN HEMT with multi-grooves barrier-etched structure, Materials Research Express 2023 10(5): 055901. (JCR Q3, IF:2.3, cited:0

16.Xuguo Zhang, Jie Xu, Zixin Chen, Qiuhui Wang, Weijing Liu*, Qinghua Li, Wei Bai, Xiadong Tang, Investigation and optimization of electro-thermal performance of Double Gate All Around MOSFET, Microelectronics Journal 2022 129: 105540. (JCR Q3, IF:2.2, cited:4

17.ZiXin Chen, WeiJing Liu*, JiangNan Liu, QiuHui Wang, XuGuo Zhang, Jie Xu, QingHua Li, Wei Bai and Xiaodong Tang, Investigation of DC and analog/RF performance of C-shaped pocket TFET (CSP-TFET) with fully overlapping gate,  Chinese Physics B 2022 31: 058501. (JCR Q3, IF:1.7, cited:4

18.Ning Huang, Weijing Liu*, Qinghua Li, Wei Bai, Xiadong Tang, Ting Yang, Investigation and Optimization of Electrical and Thermal performance for 5-nm GAA Vertically Stacked Nanowire FETs, Microelectronics Journal 2020 95: 104679JCR Q3, IF: 2.2, cited:11

19.Ning Huang, Weijing Liu*, Qinghua Li, Wei Bai, Xiadong Tang, Ting Yang, Thermal and Electrical performance investigation of FinFET with Encased Air-gap Gate Sidewalls from Spacer Encapsulation Layer Material and Structure Parameter Perspectives, Microelectronics Journal 2020 103: 104846JCR Q3, IF: 2.2, cited:2

20.Qiuhui Wang, Xuguo Zhang, Jie Xu, Zixin Chen, Xuliang Kuang, Jundong Zeng,* Weijing Liu*, Wei Bai, and Xiaodong Tang, High Sensitivity Humidity Sensors Based on Zn1xSnxO Nanostructures and Plausible Sensing Mechanism, Physica Status Solidi A-Applications and Materials Science 2022 219: 2100674.JCR Q3, IF:2, cited:0

21.Yang Gu, Huina Jiang, Zi Ye, Ning Sun, Xuliang Kuang, Weijing Liu*, Gaofang Li, Xiaojun Song, Lei Zhang, Wei Bai, Xiaodong Tang, Impact of Size on Humidity Sensing Property of Copper Oxide Nanoparticles, Electronic Materials Letters 2020 16:61–71 (JCR Q3, IF: 2.4, cited:14)

22.Yang Gu, Zi Ye, Ning Sun, Xuliang Kuang, Weijing Liu*, Xiaojun Song, Lei Zhang, Wei Bai, Xiaodong Tang, Preparation and properties of humidity sensor based on K-doped ZnO nanostructure, Journal of Materials Science: Materials in Electronics 2019 30:18767–18779 (JCR Q2, IF:2.8, cited:12)

23.Ning Sun, Zi Ye, Xuliang Kuang, Weijing Liu*, Gaofang Li, Wei Bai, Xiaodong Tang, High sensitivity capacitive humidity sensors based on Zn1-xNixO nanostructures and plausible sensing mechanism, Journal of Materials Science: Materials in Electronics 2019 30:1724–1738 (JCR Q2, IF:2.8, cited: 12)

24.Ying Ruan,Qianfan Nie, Lei Chen,Haoyang Cui Optical transparent and reconfigurable metasurface with autonomous energy supplyJOURNAL OF PHYSICS D-APPLIED PHYSICS2019.12 (SCI,JCR Q2IF=3.068)

25.Ying Ruan ,Lei Chen, Fang Yang, A  2.4GHz SOI CMOS  Power Amplifier for New Generation Bluetooth Application,7th International Conference on Communication, Image and Signal Processing, 2022  ( EI )

26.Lei Chen, Ying Ruan,Sisi Luo,etl Optically Transparent Metasurface Absorber Based on Reconfigurable and Flexible Indium Tin Oxide FilmMICROMACHINES, 2020.(SCI,JCR Q2)

27.Lei Chen, Ying Ruan,Sisi Luo,Optical-transparent metasurface for flexible manipulation and analog information modulationOPTICS EXPRESS2021,(SRuanCI,JCR Q2)

28.Xiaojun Song; Tiandi Fan; Jundong Zeng; QinZhen Shi; Qiong Huang; Meilin Gu; Petro Moilanen; YiFang Li; Dean Ta ; Nonlinear Inversion of Ultrasonic Guided Waves for in Vivo Evaluation of Cortical Bone Properties, Chinese Physics B , 2022

29.Yifang Li; Qinzhen Shi; Yuan Liu; Meilin Gu; Chengcheng Liu; Xiaojun Song*; Dean Ta*; Weiqi Wang; Fourier-Domain Ultrasonic Imaging of Cortical Bone Based on Velocity Distribution Inversion, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2021, 68(8)2619-2633.

 

六、团队现有平台支撑情况

 

1)电路与器件仿真硬件平台2套:CPUIntel Gold, Memory: 512G, Hard disk: 8T, RAID: 0, 1, 5, 10, Power: 2*1100W,支持IPMI远程管理带外管理;

2CadenceSentaurus TCAD及其所集成ATK仿真软件平台、modelPDK开发平台:目前通过与EDA与集成电路产业公司合作,开展原子级技术、TCAD仿真、SPICE建模及PDK开发、模拟IP开发等研究。

 

七、指导研究生

 

1. 论文发表:近5年指导研究生半导体、集成电路相关SCI高水平期刊、北大核心论文60余篇。

2. 学科竞赛:指导学生获第五届华为杯研究生创芯大赛国家三等奖、企业专项二等奖;第六届华为杯研究生创芯大赛国家三等奖、企业专项二等奖;中国国际互联网+”大学生创新创业大赛铜奖。

3. 工作去向:华大九天、海思、韦尔、华力微、新进集等集成电路EDA、设计与制造头部公司研发部,国家电网各省市公司

 

八、意向加入团队联系

 wjliu@shiep.edu.cn

 ruan_ying@163.com

 yangfang@shiep.edu.cn

 xiaojunsongxiaojun@163.com