[CCoE Notice] (10 am) Zoom Webinar: Graphene Based Flexible Electronic Devices for Healthcare * 10:00 am, Friday, September 25 * Tian-Ling Ren * Tsinghua University *

[Knudsen, Rachel W]

                                                                  ***** Seminar *****

Department of Electrical and Computer Engineering

Materials Engineering Program

Center for Integrated Bio and Nano Systems

  10:00 a.m., September 25, 2020

Join Zoom Meeting

https://urldefense.com/v3/__https://zoom.us/j/845619943?pwd=QlZvYUV6M2dxNDkvNWxBd3F2YzdJZz09__;!!LkSTlj0I!QF8Ggi-tgGMgTAFY2PMFwBNDlc4b496Za7fQhM0DLEmWAEcVDmsV2gcFFV2JsIXlVNo$ <https://urldefense.com/v3/__https://zoom.us/j/845619943?pwd=QlZvYUV6M2dxNDkvNWxBd3F2YzdJZz09__;!!LkSTlj0I!RY36v8rc0HmWFLiTTBHvwLA0IazEOlQxdQZC1QwuRSdYLO0ZgFA27Y6PryVryUiq6I-G0w$>



Meeting ID: 845 619 943

Password: 016104



Graphene Based Flexible Electronic Devices for Healthcare


Tian-Ling Ren

 Institute of Microelectronics

Tsinghua University


Abstract: The aging of population, the increasing youth of high-risk diseases and sub-health have become the main factors that affect people's health and quality of life. The traditional face-to-face diagnosis mode between patients and doctors has not been able to meet people's growing demand for healthcare, and the traditional diagnosis mode needs to be further improved in the utilization efficiency of time and resources, which all give a huge challenge to the healthcare industry. Compared with traditional electronic devices and systems, flexible electronic devices have the characteristics of ultra-thin, low modulus of elasticity, light weight and good tensile properties. They have wide application prospects in aerospace, consumer electronics, biomedicine and many other fields. Especially as a flexible electronic device for healthcare detection and monitoring, it has become an important academic research frontier to measure various signal changes in human activities. This talk will first introduce the important breakthrough of flexible electronic technology in recent years, then introduce the progress of Prof. Ren’s group in graphene flexible electronic technology. Finally, the prospect of wearable flexible electronic technology will be given.


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Short Bio: Prof. Tian-Ling Ren is vice dean of School of Information Science and Technology of Tsinghua University. Prof. Ren got his Ph.D. from Department of Modern Applied Physics, Tsinghua University in 1997. He has been full professor of Institute of Microelectronics of Tsinghua University since 2003. He was a visiting professor at Electrical Engineering Department of Stanford University from 2011 to 2012. Prof. Ren’s researches are focused on the intelligent sensor and integrated system, especially on the practical graphene flexible devices. He paved the way for fabricating graphene in large scale with low cost. On the other hand, Prof. Ren greatly broaden graphene’s application in wearable sensor, acoustical device, memory, and synapse transistor. Prof. Ren has published over 600 journals or conference articles, including Nature Electronics, Nature Communications, Energy & Environmental Science, Advanced Materials, ACS Nano, Nano Letters, IEEE Electron Device Letters, IEEE Journal of Solid-State Circuits, IEEE Transactions on Electron Devices, IEEE Sensors Journal, and IEDM.

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