| 姓 名:汪涛 |
职 称:副教授 | |
职 务: | |
所属系:电子科学系 | |
邮箱:taowang@hfut.edu.cn;wulishuwt@163.com | |
电 话: |
个人简介:
汪涛,男,1981年4月出生,副教授,硕士生导师, 2015年在中国科技大学信息科学技术学院电子科学与技术系博士毕业,2019年在中国科技大学电路与系统博士后流动站出站,2022年8月至2024年8月挂职担任泾县副县长,主要科研方向为电路设计,2002年至今一直主讲《射频集成电路设计》、《半导体集成电路》、《ASIC设计课程设计》等专业主干课,目前正在主持中国博士后基金及企业电路设计课题多项,已发表电路设计方向研究论文数十篇。现任《重庆大学学报》等核心期刊青年编委,《Frontiers In Sensors》等SCI期刊客座编辑,《Optical Materials》等SCI期刊审稿人。
研究方向:
集成电路设计、射频集成电路和器件
开设课程(本科生、研究生):
本科生课程《射频集成电路设计》、《半导体集成电路》、《ASIC设计课程设计》、《微波技术》
研究生课程《CMOS集成电路原理与设计》
科研项目:
在研企业委托培养项目2项,安徽省质量工程2项,中国博士后基金2项。
代表成果(著作、论文、专利等):
[1] 汪涛. 矩形微带天线的设计及FDTD分析[J]. 山西电子技术, 2007, 24(6):66-67.
[2] 汪涛,易茂祥,刘士兴,黄正峰. 天线仿真实验的设计与教学实践[J]. 实验技术与管理, 2012, 29(12):89-93.
[3] 汪涛,黄正峰,张鉴,张天畅. 微带阵列天线的设计与FDTD分析[J]. 舰船电子工程, 2013, 33(12):64-66.
[4] Tao Wang (汪涛),Qianfeng Yu, Gang Zhao, Dayong Gao. Effect of superparamagnetic nanoparticles on microwave rewarming process of cryopreserved tissues[C]. ASME 2013 Summer Bioengineering Conference, Sunriver, Oregon, USA, 2013.6.26-6.29. (EI)
[5] Tao Wang (汪涛), Gang Zhao. Feasibility evaluation of a hybrid cryotherm probe[C]. 50th Annual Meeting of the Society for Cryobiology, Washington DC, USA, 2013.7.28-7.31.
[6] Tao Wang (汪涛), Gang Zhao, Xin M. Liang, Yunpeng Xu, Yang Li, Heyu Tang, Rui Jiang, Dayong Gao. Numerical simulation of the effect of super-paramagnetic nanoparticles on microwave rewarming of cryopreserved tissues[J]. Cryobiology, 2014. 68(2): 234-243. (SCI)
[7] 汪涛,黄正峰. 直线阵列天线的设计与性能分析. 信息技术[J], 2014, 27(4):30-32.
[8] Tao Wang (汪涛), Gang Zhao, Bensheng Qiu. Theoretical evaluation of the treatment effectiveness of a novel coaxial multi-slot antenna for conformal microwave ablation of tumors. International Journal of Heat and Mass Transfer [J], 2015. 90: 81-91.(SCI)
[9] Tao Wang (汪涛), Gang Zhao,Zhongshan Deng, Cai Gao, Yunxia Cao, Dayong Gao. Theoretical investigation of a novel microwave antenna aided cryovial for rapid and uniform rewarming of frozen cryoprotective agent solutions[J]. Applied Thermal Engineering, 2015. 89: 968-977. (SCI)
[10] Tao Wang (汪涛), Gang Zhao. Numerical simulation on microwave rewarming of cryopreserved rabbit kidney with embedded superparamagnetic nanoparticles[J]. Cryoletters, 2015. 36(3): 213-220. (SCI)
[11] Tao Wang (汪涛), Gang Zhao, Heyu Tang, Zhendong Jiang. Determination of convective heat transfer coefficient at the outer surface of a cryovial being plunged into liquid nitrogen[J]. Cryoletters, 2015. 36(4): 285-288. (SCI)
[12] Zhen Wang,Gang Zhao, Tao Wang (汪涛), Qianfeng Yu, Minying Su, Xiaoming He. Three-dimensional numerical simulation of the effects of fractal vascular trees on tissue temperature and intracelluar ice formation during combined cancer therapy of cryosurgery and hyperthermia[J]. Applied Thermal Engineering, 2015. 90: 296-304. (SCI)
[13] Wei Liu,Gang Zhao, Zhiquan Shu,Tao Wang (汪涛), Kaixuan Zhu,Dayong Gao. High-precision approach based on microfluidic perfusion chamber for quantitative analysis of biophysical properties of cell membrane[J]. International Journal of Heat and Mass Transfer, 2015. 86: 869-879.(SCI)
[14] 汪涛, 刘士兴, 黄正峰, 李祥. 平面相控阵天线的单元设计与分析[J]. 实验技术与管理, 2015, 32(1):75-78.
[15] 汪涛,刘士兴,易茂祥,杨文华. CMOS集成温度传感器电路设计及仿真[J]. 实验技术与管理, 2015, 32(6):114-116.
[16] Tao Wang (汪涛), Gang Zhao. Determination of the convective heat transfer coefficients on the outer surfaces of the cryovials plunged in liquid nitrogen and 37 °C water bath[C]. Summer Biomechanics, Bioengineering and Biotransport Conference, Snowbird Resort, Utah, USA, 2015.6.17-6.20. (EI)
[17] 王鹏(研究生),汪涛,丁坤,易茂祥. 一种高增益三级运算放大器[J]. 微电子学, 2018, 48(5):579-584.
[18] Jun Xu, Cheng, Xialan Cheng, Tong Liu, Yongqiang Yu, Lingling Song, Yu You, Tao Wang (汪涛), Jun jun Zhang, Oxygen-incorporated and layer-by-layer stacked WS2 nanosheets for broadband, self-driven and fast-response photodetection[J]. Nanoscale, 2019. 11: 6810-6816.(SCI)
[19] Linbao Luo, Guo-An Wu, Yang Gao, Lin Liang, ChaoXie, Zhixiang Zhang, Xiao wei Tong, Tao Wang (汪涛), Fengxia Liang. A Highly Sensitive Perovskite/Organic Semi- conductor Heterojunction Phototransistor and Its Device Optimization Utilizing the Selective Electron Trapping Effect[J]. Advanced optical materials, 2019. 7: 1900272.(SCI)
[20] Hailing Ruan, Tao Wang (汪涛), Cai Gao. Microwave-water bath hybrid warming for frozen cryoprotectant solution using a helical antenna[J]. Cryoletters, 2020. 74(1): 26-30. (SCI)
[21] 丁坤(研究生),田睿智,汪涛,王鹏,易茂祥,张庆哲. 高线性度CMOS模拟乘法器设计与仿真[J]. 电子技术应用,2020,46(1):52-56.
[22] 汪涛,陈兴盛,丁盼盼,刘劲松. 一种改进型高功率KU波段限幅器的设计[J]. 信息技术与信息化, 2021, (2),159-163.
[23] 汪涛,陈兴盛,何贺贺,刘劲松. KU波段卫星功放预失真电路及温度补偿设计[J],电子制作,2021, (2) ,19-21.
[24] 汪涛,田睿智,赵友明,张庆哲,张天畅,易茂祥.基于STM32和滤波算法的生理参数多点监测系统及电路设计[J]. 实验技术与管理, 2021, 38(11):78-85.
[25] Tao Wang (汪涛),Mengdi ding, Hehe He, Jianbo Mao, Jiufu Ruan. Ultra-wideband polarization- and angle- insensitive metamaterial absorber based on multi-layer resistive ink [J]. Journal of Electromagnetic Waves and Applications, 2021:272-284. (SCI)
[26] Zifan Meng, Zhi Tao, Feng Lan, Jiufu Ruan, Fei Cai,Tao Wang (汪涛). Frequency selective surface based on Ti3C2Tx MXene for dual band Wi-Fi applications[J].Journal of Electromagnetic Waves and Applications, 2021, pp:1130-1140.(SCI)
[27] Tao Wang (汪涛),Guijiang Xiao, Ren Sun, Linbao Luo, Maoxiang Yi. High efficiency ETM-free perovskite cell composed by CuSCN and increasing gradient CH3NH3PbI3[J]. Chinese physics B, 2022, 31(1)018801. (SCI)
[28] Tao Wang (汪涛), Hehe He, Mengdi Ding, Jianbo Mao, Ren Sun, Lei Sheng.A flexible ultra-broadband metamaterial absorber working on whole K-bands with polarization-insensitive and wide-angle stability[J]. Chinese physics B, 2022, 31(3)037804.(SCI)
[29] 汪涛, 何贺贺, 丁梦迪. 柔性透明雷达-红外兼容隐身超材料设计[J]. 燕山大学学报(自然科学版), 2022, 46(2): 142-149.
[30] 汪涛,丁梦迪,何贺贺.基于集总电阻的超宽带吸波器设计[J].燕山大学学报(自然科学版),2022, 46(4): 371-376.
[31] Jiajia Wu, Cai Gao, Dongfang Sun, Lei Yang, Bin Ye, Tao Wang (汪涛), Pei Zhou. Thermally mediated double emulsion droplets formation in a six-way junction microfluidic device [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects,2023. 130961.(SCI)
[32]Tao Wang (汪涛),YuLun Yan, Gong-Hua Chen, Ying Li,Jun Hu, JianBo Mao.A flexible ultra-broadband multi-layered absorber working at 2 GHz–40 GHz printed by resistive ink [J]. Chinese physics B, 2024, 33(2)024101.(SCI)
[33]Tao Wang(汪涛), SiJian Kuang, PengJian Qian, YuLun Yan, Jun Hu, Ying Li, JianBo Mao. Organic UWB metamaterial absorber with angle insensitive based on flexible frequency selective surface [J]. Optical Materials, 2024, (157) 116121. (SCI)
[34] Jun Hu, Chenglong Wang, Jie Wu, Cheng Zhang, Tao Wang(汪涛), Gaobin Xu, Zhixiang Huang. Polarization- and mode-reconfigurable wideband OAM magneto- electric dipole antenna array [J]. IEEE Antennas and Wireless Propagation Letters, 2024,23(10) 3078-3082. (SCI)
[35] 汪涛,钱鹏健,宿利宸,宣晓峰. 基于有机材料的柔性微波器件及微带滤波电路[J]. 微电子学,2025(6):1-7.
获奖荣誉:
安徽省教坛新秀
合肥工业大学青年教师教学基本功比赛二等奖
