杨轶


杨轶 准聘副教授


北京市海淀区清华大学集成电路学院C417 100084

电话:+86-10-62798052

传真:+86-10-62771130

电子邮箱:yiyang@tsinghua.edu.cn

Yi YangAssociate Professor, Ph.D. Advisor

School of Integrated Circuits, Tsinghua University, Beijing 100084, China

Tel: +86-10-62798052

Fax: +86-10-62771130

Email: yiyang@tsinghua.edu.cn



杨轶,1978年生,汉族,中共党员,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重要创新性成果。承担和参与国家重大科技专项、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 letters、Advanced Materials、Scientific Reports、Nanoscale、IEDM等国际著名学术期刊和会议发表论文150余篇,获授权发明专利10余项。近年来担任电子器件领域国际学术会议IEDM、EDTM、ICSICT技术委员会委员等重要学术任职。


Dr. Yi Yang received the B.S. degree from the Department of Electronic Engineering, Fudan University in 2001 and the Ph.D. degree from the Institute of Microelectronics, Tsinghua Universityin 2006. He is currently an Associate Professor with the School of Integrated Circuits at Tsinghua University. His research interests focus on intelligent micro/nano devices and systems, includingwearable sensors, smart biosensors, acoustic devices, RF resonators and 2D material based devices. He has published more than 150journal and conferencepapers and has been granted with over 10 China patents. He has served as Technical Program Committee member of IEEE International Electron Devices Meeting (IEDM) (2016, 2017), IEEE Electron Devices Technology and Manufacturing (EDTM) Conference (2017, 2018) and IEEE International Conference on Solid-State and Integrated Circuit Technology (2014, 2016).


代表性学术论文(Selected Representative Publications)

[1]. 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.

[2]. 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.

[3]. 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.

[4]. 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.

[5]. Liu, Y.; K. N. Zhang; Y. Zhang; L. Q. Tao; Y. X. Li; D. Y. Wang; Y. Yang and T. L. Ren, Flexible, wearable, and functional graphene-textile composites.Applied Physics Letters, 2017. 110(26).

[6]. Tao, L. Q.; H. Sun; Y. Liu; Z. Y. Ju; Y. Yang and T. L. Ren, Flexible graphene sound device based on laser reduced graphene.Applied Physics Letters, 2017. 111(10).

[7]. 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.

[8]. Wang, J. B.; Y. X. Li; R. R. Liang; Y. Zhang; W. Q. Mao; Y. Yang and T. L. Ren, Synaptic Computation Demonstrated in a Two-Synapse Network Based on Top-Gate Electric-Double-Layer Synaptic Transistors.IEEE Electron Device Letters, 2017. 38(10): p. 1496-1499.

[9]. Zhang, T. Y.; H. M. Zhao; D. Y. Wang; Q. Wang; Y. Pang; N. Q. Deng; H. W. Cao; Y. Yang and T. L. Ren, A super flexible and custom-shaped graphene heater.Nanoscale, 2017. 9(38): p. 14357-14363.

[10]. Deng, N. Q.; H. Tian; Z. Y. Ju; H. M. Zhao; C. Li; M. A. Mohammad; L. Q. Tao; Y. Pang; X. F. Wang; T. Y. Zhang; Y. Yang and T. L. Ren, Tunable graphene oxide reduction and graphene patterning at room temperature on arbitrary substrates.Carbon, 2016. 109: p. 173-181.

[11]. 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.

[12]. Pang, Y.; H. Tian; L. Q. Tao; Y. X. Li; X. F. Wang; N. Q. Deng; Y. Yang and T. L. Ren, Flexible, Highly Sensitive, and Wearable Pressure and Strain Sensors with Graphene Porous Network Structure.ACS Applied Materials & Interfaces, 2016. 8(40): p. 26458-26462.

[13]. Tao, L. Q.; Y. Liu; Z. Y. Ju; H. Tian; Q. Y. Xie; Y. Yang and T. L. Ren, A Flexible 360-Degree Thermal Sound Source Based on Laser Induced Graphene.Nanomaterials, 2016. 6(6).

[14]. Tao, L. Q.; Y. Liu; H. Tian; Z. Y. Ju; Q. Y. Xie; Y. Yang and T. L. Ren, A novel thermal acoustic device based on porous graphene. AIP Advances, 2016. 6(1).

[15]. 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 IEEEInternational Electron Devices Meeting (IEDM), 2016.

[16]. 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.

[17]. Cai, H. L.; Y. Yang; X. Chen; M. Ali Mohammad; T. X. Ye; C. R. Guo; L. T. Yi; C. J. Zhou; J. Liu and T. L. Ren, A third-order mode high frequency biosensor with atomic resolution.Biosensors & Bioelectronics, 2015. 71: p. 261-268.

[18]. Tian, H.; W. T. Mi; X. F. Wang; H. M. Zhao; Q. Y. Xie; C. Li; Y. X. Li; Y. Yang and T. L. Ren, Graphene Dynamic Synapse with Modulatable Plasticity.Nano Letters, 2015. 15(12): p. 8013-8019.

[19]. Tian, H.; H. M. Zhao; X. F. Wang; Q. Y. Xie; H. Y. Chen; M. A. Mohammad; C. Li; W. T. Mi; Z. Bie; C. H. Yeh; Y. Yang; H. S. P. Wong; P. W. Chiu and T. L. Ren, In Situ Tuning of Switching Window in a Gate-Controlled Bilayer Graphene-Electrode Resistive Memory Device.Advanced Materials, 2015. 27(47): p. 7767-7774.

[20]. Wang, X. M.; H. Tian; M. A. Mohammad; C. Li; C. Wu; Y. Yang and T. L. Ren, A spectrally tunable all-graphene-based flexible field-effect light-emitting device.Nature Communications, 2015. 6.

[21]. 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, in 2015 IEEEInternational Electron Devices Meeting (IEDM). 2015.

[22]. Tian, H.; H. Y. Chen; T. L. Ren; C. Li; Q. T. Xue; M. A. Mohammad; C. Wu; Y. Yang and H. S. P. Wong, Cost-Effective, Transfer-Free, Flexible Resistive Random Access Memory Using Laser-Scribed Reduced Graphene Oxide Patterning Technology.Nano Letters, 2014. 14(6): p. 3214-3219.

[23]. Tian, H.; C. Li; M. A. Mohammad; Y. L. Cui; W. T. Mi; Y. Yang; D. Xie and T. L. Ren, Graphene Earphones: Entertainment for Both Humans and Animals.ACS Nano, 2014. 8(6): p. 5883-5890.

[24]. 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, in 2014 IEEEInternational Electron Devices Meeting (IEDM). 2014.

[25]. Tian, H.; Y. Yang; C. Li; M. A. Mohammad and T. L. Ren, Flexible, Transparent Single-Layer Graphene Earphone, in 2014 IEEEInternational Electron Devices Meeting (IEDM). 2014.

[26]. Yang, Y.; H. Tian; H. Sun; R. J. Xu; Y. Shua and T. L. Ren, A spring-connected nanogenerator based on ZnO nanoparticles and a multiwall carbon nanotube.RSC Advances, 2014. 4(5): p. 2115-2118.

[27]. Zhao, H. M.; Y. C. Lin; C. H. Yeh; H. Tian; Y. C. Chen; D. Xie; Y. Yang; K. Suenaga; T. L. Ren and P. W. Chiu, Growth and Raman Spectra of Single-Crystal Trilayer Graphene with Different Stacking Orientations.ACS Nano, 2014. 8(10): p. 10766-10773.

[28]. 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, in 2013 IEEEInternational Electron Devices Meeting (IEDM). 2013.

[29]. Tian, H.; H. Y. Chen; B. Gao; S. M. Yu; J. L. Liang; Y. Yang; D. Xie; J. F. Kang; T. L. Ren; Y. G. Zhang and H. S. P. Wong, Monitoring Oxygen Movement by Raman Spectroscopy of Resistive Random Access Memory with a Graphene-Inserted Electrode.Nano Letters, 2013. 13(2): p. 651-657.

[30]. 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.

[31]. 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.

[32]. 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, in 2012 IEEEInternational Electron Devices Meeting (IEDM). 2012.