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    2018年10月11日 17:13
    [讲座通知]可降解柔性电子材料(Materials for Transient Electronics)

    讲座名称

    中文:可降解柔性电子材料  

    英文:Materials for Transient Electronics

    讲座人

    John A. Rogers教授

    Professor John   A. Rogers

    讲座人

    头衔

    美国科学院、美国工程院、美国艺术与科学学院三院院士,美国西北大学教授

    Fellow of the   National Academy of Sciences, Fellow of the National Academy of Engineering,   Fellow of the American Academy of Arts and Sciences, Northwestern   UniversityProfessor

    讲座时间

    2018-10-14   10:00:00

    讲座地点

    北校区图书馆西裙楼三楼学术报告厅

    Lecture Hall,   Third Floor of XDU Library, North Campus of XDU

    讲座人

    介绍

    中文介绍:John A. Rogers 教授于1995年在麻省理工学院(MIT)获得物理化学博士学位,曾在Bell实验室担任凝聚态物理研究部主任。从2003开始,Rogers教授在伊利诺伊大学香槟分校担任材料科学与工程系讲席教授。2016年起,担任美国西北大学材料科学与工程、生物医学工程和医学学科Louis Simpson and Kimberly Querrey讲席教授,并兼任生物集成电子中心创始主任。他是美国国家科学院、美国国家工程院、美国艺术与科学学院三院院士,同时是美国电气和电子工程师协会(IEEE)、美国物理协会(APS)和材料研究协会(MRS)等多个权威科学协会会士。此外,他是复旦大学、浙江大学荣誉教授,瑞士联邦理工学院荣誉博士。他曾获麦克阿瑟天才奖(2009)   、麻省理工学院的莱梅尔逊奖(2011)、美国史密森尼物理科学创造力大奖(2013)、苏黎世联邦理工学院颁发的苏黎世化学工程奖章(2015)以及美国机械工程师学会颁发的纳戴奖章(2017)

     

    英文介绍:

    Professor John   A. Rogers is now in Northwestern University. He is Louis Simpson and Kimberly   Querrey Professor of Materials Science and Engineering, Biomedical   Engineering and Neurological Surgery (and by courtesy Electrical Engineering   and Computer Science, Mechanical Engineering and Chemistry) .

     

    He received   his Bachelor Degree majored in Chemistry and Physics in University of Texas,   and his Master Degree in Chemistry and Physics in Massachusetts Institute of   Technology (MIT), and his Ph.D. in Physical Chemistry in Massachusetts   Institute of Technology (MIT) too.

     

    Rogers'   research seeks to understand and exploit interesting characteristics of   'soft' materials, such as polymers, liquid crystals, and biological tissues   as well as hybrid combinations of them with unusual classes of   micro/nanomaterials, in the form of ribbons, wires, membranes, tubes or   related. The aim is to control and induce novel electronic and photonic   responses in these materials; and also develop new 'soft lithographic' and   biomimetic approaches for patterning them and guiding their growth.

    讲座摘要

    A remarkable   feature of modern integrated circuit technology is its ability to operate in   a stable fashion, with almost perfect reliability, without physical or   chemical change.  Recently developed classes of electronic materials   create an opportunity to engineer the opposite outcome, in the form of   ‘transient’ devices that dissolve, disintegrate or otherwise disappear at   triggered times or with controlled rates.  Water-soluble transient   electronics serve as the foundations for interesting applications in   zero-impact environmental monitors, 'green' consumer electronics and   bio-resorbable biomedical implants.  This presentation describes the   foundational concepts in chemistry, materials science and assembly processes   for bioresorbable electronics in 1D, 2D and 3D architectures, the latter   enabled by approaches that draw inspiration from the ancient arts of kirigami   and origami.  Wireless sensors of intracranial temperature, pressure and   electrophysiology designed for use in treatment of traumatic brain injury and   nerve stimulators configured for accelerated neuroregeneration provide   application examples.

     

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