【1月17日】IJSNM讲座-欧洲科学院院士George Malliaras教授

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宣传海报

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报告时间

2024年1月17日20:30 - 21:30（北京时间）

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报告题目

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主办方

国际智能与纳米材料杂志

International Journal of Smart and Nano Materials

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观看方式

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报告人介绍

Prof. George Malliaras

Member of Academia Europaea

Member of European Academy of Sciences

Prince Philip Professor of Technology

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George Malliaras is the Prince Philip Professor of Technology at the University of Cambridge. He leads the Bioelectronics Laboratory, an interdisciplinary group of scientists, engineers and clinicians who translate advances in electronics to better tools for healthcare. George received a BS from the Aristotle University, Greece, a PhD from the University of Groningen, the Netherlands, and did a postdoc at the IBM Almaden Research Center, USA. Before joining Cambridge, he was a faculty member at Cornell University in the USA, where he also served as the Director of the Cornell NanoScale Facility, and at the School of Mines of St. Etienne in France. His research has been recognized with awards from the European Academy of Sciences (Blaise Pascal Medal), the Materials Research Society (Mid-Career Researcher Award), the New York Academy of Sciences (Blavatnik Award for Young Scientists), the US National Science Foundation (Faculty Early Career Development Award), and DuPont (Young Professor Award). He was awarded an Honorary Doctorate from the University of Linköping (Sweden), elected Fellow of the Materials Research Society and of the Royal Society of Chemistry, and is a member of the Academia Europaea and of the European Academy of Sciences. He serves as a Deputy Editor of Science Advances and is the Director of the EPSRC IRC in Targeted Delivery for Hard-to-Treat Cancers.

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报告摘要

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Bioelectronic medicine provides a new means of addressing disease via the electrical stimulation of tissues: Deep brain stimulation, for example, has shown exceptional promise in the treatment of neurological and neuropsychiatric disorders, while stimulation of peripheral nerves is being explored to treat autoimmune disorders. The implanted electrodes used in these devices are assembled by hand, using top down techniques that herald from (mechanical) watchmaking! Using the (bottom up) microfabrication techniques of microelectronics promises to revolutionize implantable devices, enabling exceptionally precise stimulation and minimally invasive thin film form factors. I will overview the state-of-the-art in the use of thin film implants and discuss the challenges that lie ahead on the road to deploying this technology to patients at scale.

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