来源:科学网 发布时间:2023/6/30 15:37:00
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电子科技大学教授张晓升讲述基于蚕丝蛋白的自驱动智能电子

直播时间:2023年6月30日(周五)20:00-21:30

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https://weibo.com/l/wblive/p/show/1022:2321324918339033235941

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北京时间2023年6月30日晚八点,iCANX Talks 第150期邀请到电子科技大学张晓升教授分享基于蚕丝蛋白的自驱动智能电子。更多精彩,敬请期待!

【嘉宾介绍】

Xiaosheng Zhang

University of Electronic Science

and Technology of China

【Abstract】

With the rapid development of the Internet of Things (IoT) and the emergence of 5G, traditional silicon-based electronics no longer fully meet market demands such as nonplanar application scenarios due to mechanical mismatch. This provides unprecedented opportunities for flexible electronics that bypass the physical rigidity through the introduction of flexible materials. In recent decades, silk fibroin presents greater superiorities in biocompatibility and biodegradability, and moreover, it also possesses a variety of attractive properties, such as adjustable water solubility, remarkable optical transmittance, light weight, and ease of processing, which are partially or even completely lacking in other biological materials. Therefore, silk fibroin has been widely used as fundamental components for the construction of biocompatible flexible electronics, particularly for wearable and implantable devices.

伴随着物联网和5G技术的飞速发展,传统硅基电子器件由于机械失配性,难以满足非平面应用场景对三维集成和柔性穿戴式的特殊需求,这为柔性电子器件的发展提供了难得的机遇。近年来,蚕丝蛋白展现了优异的生物兼容性和生物可降解特性,因其具有的可控水溶性、超透光性、轻量化及易于微纳加工等极具吸引力的特性,蚕丝蛋白已经广泛用于穿戴式和可植入式应用场景中,用以实现生物兼容的柔性电子器件。

Here, this talk focuses on our research activities on smart electronics based on silk fibroin, including micro/nano energy harvesting and multi-functional sensing, and furthermore the integration of the above two technologies to construct self-powered multi-sensing smart microsystems.

本报告将聚焦于我们所开展的基于蚕丝蛋白的智能电子器件的相关研究工作,包括微纳能源采集和多传感融合,以及更进一步地将两者相集成,从而提出自驱动多传感智能微系统的新颖架构。

【BIOGRAPHY】

Dr. Xiaosheng Zhang is currently a Professor at University of Electronic Science and Technology of China (UESTC). His research field covers MEMS/NEMS. Prof. Zhang has published 3 scientific books (Wiley and Springer), more than 60 peer-reviewed papers and contributed over 30 conference talks (including Plenary talk for IEEE PowerMEMS 2021), and authorized 32 invention patents. In recognition for his research accomplishment, Prof. Zhang won over 20 academic awards, including National Young Talent Plan, Excellent Doctoral Dissertation of Chinese Institute of Electronics, etc. He also served as TPC member and session chair for TRANSDUCERS 2019 and IEEE NEMS 2017-2021. Prof. Zhang currently serves as Associate Editor for IEEE TNANO and Young Star Editor for Nano Research. He also leads over 10 research projects as PI, including National Key Research and Development Program, National Natural Science Foundation of China, etc.

张晓升教授,国家青年人才,省青年科技创新团队负责人、省创新团队负责人,省特聘专家,中国微米纳米技术学会青工委委员、中国宇航学会遥测专业委员委员。长期在微纳电子机械系统领域开展研究工作,在批量化微纳复合制造、新型微纳能源、先进微纳传感、自驱动智能系统等,面向物联网发展瓶颈的重要前沿方向上开展了深入的研究工作,取得了一系列重要研究成果,解决了智能传感节点的稳定供能和集成一体化的难题。在国际学术刊物上共发表SCI论文60余篇,授权发明专利32项,出版英文专著3本,荣获学术荣誉奖励20余项。

 
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