个人简介
杨轶,清华大学集成电路学院副教授、博士生导师。2001年本科毕业于复旦大学电子工程系,2006年获清华大学博士学位。曾任清华大学微纳电子系/微电子所研究生工作组组长,现任清华大学集成电路学院党委副书记。长期致力于智能微纳器件与系统的研究,在二维纳电子器件、纳米声学器件、集成谐振器件、柔性电子器件及其应用系统等方面取得多项创新性成果。承担国家重大科技专项、国家重点研发计划、国家公益性行业科技专项、973课题、863课题、国家自然科学基金重点项目和省部级科研项目等10余项。在Nature Communications、ACS Nano、Nano-Micro Letters、Science Advances、Small Method、Nanoscale、IEDM等学术期刊和会议发表论文150余篇,获授权发明专利20余项。获中国电子学会自然科学一等奖、江苏省科学技术三等奖、中国电子学会优秀科技工作者称号等荣誉。近年来担任国际学术会议IEDM、EDTM、ICSICT技术委员会委员,学术期刊Sensors、Frontiers、Nanotechnology and Precision Engineering编委,中国仪器仪表学会微纳器件与系统技术分会理事和IEEE电子器件学会北京分会主席等学术任职。
代表性学术论文
[1]. Yang, Y., T.R. Cui, D. Li, S.R. Ji, Z.K. Chen, W.C. Shao, H.F. Liu and T.L. Ren, Breathable Electronic Skins for Daily Physiological Signal Monitoring. Nano-Micro Letters, 2022. 14:161
[2]. Yang, Y., Y.H. Wei, Z.F. Guo, W.W. Hou, Y.J. Liu, H. Tian and T.L. Ren, From Materials to Devices: Graphene towards Practical Applications, Small Method, 2022, p.2200671
[3]. Gou, G.Y., X.S. Li, J.M. Jian, H. Tian, F. Wu, J. Ren, X.S. Geng, J.D. Xu, Y.C. Qiao, Z.Y. Yan, G. Dun, C.W. Ahn, Y. Yang, and T.L. Ren, Two-stage amplification of an ultrasensitive MXene-based intelligent artificial eardrum. Science Advances, 2022. 8(13).
[4]. Wei, Y.H., X.S. Li, Y.F. Wang, T. Hirtz, Z.F. Guo, Y.C. Qiao, T.R. Cui, H. Tian, Y. Yang, and T.L. Ren, Graphene-Based Multifunctional Textile for Sensing and Actuating. ACS Nano, 2021. 15(11): p. 17738-17747.
[5]. Qiao, Y.C., G.Y. Gou, F. Wu, J.M. Jian, X.S. Li, O.M. Hirtz, Y.F. Zhao, Y. Zhi, F.W. Wang, H. Tian, Y. Yang, and T.L. Ren, Graphene-Based Thermoacoustic Sound Source. ACS Nano, 2020. 14(4): p. 3779-3804.
[6]. Qiao, Y.C., Y.F. Wang, J.M. Jian, M.R. Li, G.Y. Jiang, X.S. Li, G. Deng, S.R. Ji, Y.H. Wei, Y. Pang, Q. Wu, H. Tian, Y. Yang, X.M. Wu, and T.L. Ren, Multifunctional and high-performance electronic skin based on silver nanowires bridging graphene. Carbon, 2020. 156: p. 253-260.
[7]. Qiao, Y.C., X.S. Li, J.M. Jian, Q. Wu, Y.H. Wei, H. Shuai, T. Hirtz, Y. Zhi, G. Deng, Y.F. Wang, G.Y. Gou, J.D. Xu, T.R. Cui, H. Tian, Y. Yang, and T.L. Ren, Substrate-Free Multilayer Graphene Electronic Skin for Intelligent Diagnosis. ACS Applied Materials & Interfaces, 2020. 12(44): p. 49945-49956.
[8]. Tian, Y., D.Y. Wang, Y.T. Li, H. Tian, Y. Yang, and T.L. Ren, Highly Sensitive, Wide-Range, and Flexible Pressure Sensor Based on Honeycomb-Like Graphene Network. IEEE Transactions on Electron Devices, 2020. 67(5): p. 2153-2156.
[9]. Wei, Y. H.; Y. C. Qiao; G. Y. Jiang; Y. F. Wang; F. W. Wang; M. R. Li; Y. F. Zhao; Y. Tian; G. Y. Gou; S. Y. Tan; H. Tian; Y. Yang and T. L. Ren, A Wearable Skinlike Ultra-Sensitive Artificial Graphene Throat. ACS Nano, 2019. 13(8): p. 8639-8647.
[10]. Qiao, Y. C.; X. S. Li; T. Hirtz; G. Deng; Y. H. Wei; M. R. Li; S. R. Ji; Q. Wu; J. M. Jian; F. Wu; Y. Shen; H. Tian; Y. Yang and T. L. Ren, Graphene-based wearable sensors. Nanoscale, 2019. 11(41): p. 18923-18945.
[11]. Gou, G. Y.; M. L. Jin; B. J. Lee; H. Tian; F. Wu; Y. T. Li; Z. Y. Ju; J. M. Jian; X. S. Geng; J. Ren; Y. H. Wei; G. Y. Jiang; Y. C. Qiao; X. S. Li; S. J. Kim; M. Gao; H. T. Jung; C. W. Ahn; Y. Yang and T. L. Ren, Flexible Two-Dimensional Ti3C2 MXene Films as Thermoacoustic Devices. ACS Nano, 2019. 13(11): p. 12613-12620.
[12]. Pang, Y.; K. N. Zhang; Z. Yang; S. Jiang; Z. Y. Ju; Y. X. Li; X. F. Wang; D. Y. Wang; M. Q. Jian; Y. Y. Zhang; R. R. Liang; H. Tian; Y. Yang and T. L. Ren, Epidermis Microstructure Inspired Graphene Pressure Sensor with Random Distributed Spinosum for High Sensitivity and Large Linearity. ACS Nano, 2018. 12(3): p. 2346-2354.
[13]. Qiao, Y. C.; Y. F. Wang; H. Tian; M. R. Li; J. M. Jian; Y. H. Wei; Y. Tian; D. Y. Wang; Y. Pang; X. S. Geng; X. F. Wang; Y. F. Zhao; H. M. Wang; N. Q. Deng; M. Q. Jian; Y. Y. Zhang; R. R. Liang; Y. Yang and T. L. Ren, Multilayer Graphene Epidermal Electronic Skin. ACS Nano, 2018. 12(9): p. 8839-8846.
[14]. Yang, Z.; Y. Pang; X. L. Han; Y. F. Yang; J. Ling; M. Q. Jian; Y. Y. Zhang; Y. Yang and T. L. Ren, Graphene Textile Strain Sensor with Negative Resistance Variation for Human Motion Detection. ACS Nano, 2018. 12(9): p. 9134-9141.
[15]. Yang, Z.; D. Y. Wang; Y. Pang; Y. X. Li; Q. Wang; T. Y. Zhang; J. B. Wang; X. Liu; Y. Y. Yang; J. M. Jian; M. Q. Jian; Y. Y. Zhang; Y. Yang and T. L. Ren, Simultaneously Detecting Subtle and Intensive Human Motions Based on a Silver Nanoparticles Bridged Graphene Strain Sensor. ACS Applied Materials & Interfaces, 2018. 10(4): p. 3948-3954.
[16]. Tao, L.Q., H. Tian, Y. Liu, Z.Y. Ju, Y. Pang, Y.Q. Chen, D.Y. Wang, X.G. Tian, J.C. Yan, N.Q. Deng, Y. Yang, and T.L. Ren, An intelligent artificial throat with sound-sensing ability based on laser induced graphene. Nature Communications, 2017. 8.
[17]. Tao, L.Q., K.N. Zhang, H. Tian, Y. Liu, D.Y. Wang, Y.Q. Chen, Y. Yang, and T.L. Ren, Graphene-Paper Pressure Sensor for Detecting Human Motions. ACS Nano, 2017. 11(9): p. 8790-8795.
[18]. Tao, L.Q., D.Y. Wang, H. Tian, Z.Y. Ju, Y. Liu, Y. Pang, Y.Q. Chen, Y. Yang, and T.L. Ren, Self-adapted and tunable graphene strain sensors for detecting both subtle and large human motions. Nanoscale, 2017. 9(24): p. 8266-8273.
[19]. Wang, D.Y., L.Q. Tao, Y. Liu, T.Y. Zhang, Y. Pang, Q. Wang, S. Jiang, Y. Yang, and T.L. Ren, High performance flexible strain sensor based on self-locked overlapping graphene sheets. Nanoscale, 2016. 8(48): p. 20090-20095.
[20]. Pang, Y., Y. Shu, M. Shavezipur, X.F. Wang, M.A. Mohammad, Y. Yang, H.M. Zhao, N.Q. Deng, R. Maboudian, and T.L. Ren, 3D Stretchable Arch Ribbon Array Fabricated via Grayscale Lithography. Scientific Reports, 2016. 6.
[21]. Yang, Y., H. Tian, Y.F. Wang, Y. Shu, C.J. Zhou, H. Sun, C.H. Zhang, H. Chen, and T.L. Ren, An Ultra-High Element Density pMUT Array with Low Crosstalk for 3-D Medical Imaging. Sensors, 2013. 13(8): p. 9624-9634.
[22]. Yang, Y., H. Tian, B. Yan, H. Sun, C. Wu, Y. Shu, L.G. Wang, and T.L. Ren, A flexible piezoelectric micromachined ultrasound transducer. RSC Advances, 2013. 3(47): p. 24900-24905.
[23]. Dun, G.H., K. Qi, Z.S. Wang, X.S. Geng, Y.Y. Li, P. Wan, Y.C. He, R.R. Liang, D. Xie, H. Tian, Y. Yang, and T.L. Ren, Reconfigurable and In-sensor Computing Pb-free Perovskite Array towards Intelligent X-ray Imaging, 2022 IEEE International Electron Devices Meeting (IEDM), 2022. Accepted.
[24]. Tian, H., X.F. Wang, F. Wu, Y. Yang, and T.L. Ren, High Performance 2D Perovskite/Graphene Optical Synapses as Artificial Eyes. 2018 IEEE International Electron Devices Meeting (IEDM), 2018.
[25]. Li, L.S., B. Magyari-Kope, C.H. Wang, S. Deshmukh, Z.Z. Jiang, H.T. Li, Y. Yang, H.L. Li, H. Tian, E. Pop, T.L. Ren, and H.S.P. Wong, First Principles Study of Memory Selectors using Heterojunctions of 2D Layered Materials. 2018 IEEE International Electron Devices Meeting (IEDM), 2018.
[26]. Tao, L.Q., D.Y. Wang, H. Tian, Z.Y. Ju, Y. Liu, Y.Q. Chen, Q.Y. Xie, H.M. Zhao, Y. Yang, and T.L. Ren, Tunable and Wearable High Performance Strain Sensors Based on Laser Patterned Graphene Flakes. 2016 IEEE International Electron Devices Meeting (IEDM), 2016.
[27]. Mohammad, M.A., X. Chen, Q.Y. Xie, B. Liu, J. Conway, H. Tian, Y. Yang, and T.L. Ren, Super High Frequency Lithium Niobate Surface Acoustic Wave Transducers up to 14 GHz, 2015 IEEE International Electron Devices Meeting (IEDM). 2015.
[28]. Wang, D.B., H. Tian, I. Martin-Fernandez, Y. Yang, T.L. Ren, and Y.G. Zhang, Large-Scale Fabrication of Graphene-based Electronic and MEMS Devices, 2014 IEEE International Electron Devices Meeting (IEDM). 2014.
[29]. Tian, H., Y. Yang, C. Li, M.A. Mohammad, and T.L. Ren, Flexible, Transparent Single-Layer Graphene Earphone, 2014 IEEE International Electron Devices Meeting (IEDM). 2014.
[30]. Tian, H., Y. Shu, X.F. Wang, M.A. Mohammad, C. Li, Y. Yang, and T.L. Ren, An Ultra-Sensitive Resistive Pressure Sensor Based on the V-shaped Foam-like Structure of Laser-Scribed Graphene, 2014 IEEE International Electron Devices Meeting (IEDM). 2014.
[31]. Tian, H., Y. Yang, D. Xie, Y. Shu, Y.L. Cui, C. Wu, H.L. Cai, and T.L. Ren, Wafer-Scale Flexible Graphene Strain Sensors, 2013 IEEE International Electron Devices Meeting (IEDM). 2013.
[32]. Cai, H.L., Y. Yang, C.R. Guo, C.J. Zhou, T.X. Ye, C. Wu, H. Tian, D. Xie, J. Liu, and T.L. Ren, A High Order Mode 6.4GHz Ultra-High Sensitivity Nanoscale Surface Acoustic Wave Biosensor, 2013 IEEE International Electron Devices Meeting (IEDM). 2013.
[33]. Zhou, C.J., Y. Yang, Y. Shu, C.H. Zhang, H. Tian, Z.H. Zhang, D. Xie, T.L. Ren, J. Zhou, B. Feng, H. Jin, and S.R. Dong, Ultra Flexible Pseudo-Lamb Wave RF Resonators Based on ZnO/PI and AlN/PI Structures, 2012 IEEE International Electron Devices Meeting (IEDM). 2012.