此次大会主题将包括但不限于有机柔性电子、柔性显示、无机柔性电子、可延展电子、柔性能源、生物仿真电子、可重构电子、瞬态电子、生物合成电子、可穿戴电子和柔性机器人。同时本次大会也是持续为全球产业界、企业界提供更多了解柔性电子领域最新技术进展的机会。
本届大会组委会主席分别是来自清华大学的冯雪教授和美国西北大学黄永刚教授,此外组委会成员还有清华大学段炼教授、罗毅教授、沈洋教授,浙江大学宋吉舟教授,清华大学王晓峰副研究员、张一慧副教授。
参会注册信息
注册付款截止时间 2019年6月20日
展览付款截止时间 2019年6月30日
常规(3000 RMB or 500 USD)
学生(1500 RMB or 250 USD)
详情请访问:会议网站:http://icfe.gfeit.com/
主办方:
柔性电子技术协同创新中心
清华大学柔性电子技术研究中心
承办方:
柔性电子与智能技术全球研究中心
浙江清华柔性电子技术研究院
会议地址:
国际创博中心(浙江省杭州市钱塘新区科技园路267号)
期待与大家相聚杭州,
共同见证柔性电子即将为我们开创的未来时代!
本周人物
Wenlong Cheng
澳大利亚莫纳什大学的研究人员采用了一种新的方法检测运动和生命体征,即设计一款具有高度伸缩性、可紧密贴合穿着者皮肤的极度敏感的弹性传感器,成功解决了可穿戴传感器的弯曲和拉伸功能等问题。据悉,该穿戴式传感器可用于生物医学领域。而该研发成果的领导者就是本周我们要介绍的Wenlong Cheng教授。
Wenlong Cheng
Professor
Monash University, Australia
程文龙教授,现为澳大利亚莫纳什大学化学工程系终身教授。程教授1999年毕业于吉林大学获得学士学位;2005年,在中科院长春应用化学研究所获得博士学位;2005-2006年,作为洪堡学者在德国马普微结构物理所从事科研工作;2006-2010年,在美国康奈尔大学生物工程与环境工程系从事博士后研究;2010年,加入澳大利亚墨尔本莫纳什大学。
程教授的研究兴趣主要包括纳米生物界面问题、DNA纳米技术、纳米抗癌治疗和电子皮肤等。截止目前,程文龙教授已在包括Nature Nanotechnology、Nature Materials、Nature Communication、Advance Materials、Angewandte Chemie International Edition在内的世界著名期刊上发表高水平论文一百余篇,出版多部著作和获得多项专利授权。程文龙教授分别于2003年和2007年获得中科院院长特别奖和全国百篇优秀博士奖。
程文龙教授与其两位博士,历时三年研发出了一种可伸缩式的电子皮肤设备——可穿戴“电子皮肤”,并为其申请了专利。这种新型可穿戴皮肤极为薄软、韧性强,可佩戴或植入人体的任何部位,能够与软组织的机械性能相匹配,监测到肌肉紧张、血压、胆固醇、葡萄糖等健康指标,并通过蓝牙同步数据到手机等电子设备。“电子皮肤”采用的是一种韧性和耐用性都极强的新金纳米线薄膜,每条纳米线的直径相当于人类头发的千分之一,每片薄膜可拉伸至其自身的9倍大而不断裂。试验证明,这款可穿戴“电子皮肤”即使在2000次拉伸和高达800%的释放周期之后,仍可提供93%的数据准确性。
附Wenlong Cheng英文简介:
Wenlong Cheng is a professor and director of research in the Department of Chemical Engineering at Monash University, Australia. He is also an Ambassador Tech Fellow in Melbourne Centre for Nanofabrication. He earned his PhD from Chinese Academy of Sciences in 2005 and his BS from Jilin University, China in 1999. He held positions in the Max Planck Institute of Microstructure Physics and the Department of Biological and Environmental Engineering of Cornell University before joining the Monash University in 2010. His research interest lies at the Nano-Bio Interface, particularly plasmonic nanomaterials, DNA nanotechnology, nanoparticle anticancer theranostics and electronic skins. He has published more than 100 papers including 3 in Nature Nanotechnology, 1 in Nature Materials and 1 in Nature Comm. He is currently the editor for the Elsevier journal-Inorganic Chemistry Communications, and the editorial board members for a few journals including Cell press journal- iScience.
Professor Cheng’s nanobionics research laboratory focuses on the rational design of nanobionic materials system by combining design rules in microelectronic and biological systems. He enables this concept through a highly interdisciplinary research program across chemistry, biology, material science and microelectronic engineering. The main goals of the nanobionics laboratory is to synthesize function high quality nanocrystals and conjugate them with biomolecules; rationally program synthesis of nanobiomaterials; elucidate the fundamental structure-function relationships; develop adaptive nanobioelectronic devices.
His research group is currently investigating:
•Synthesis of high-quality size and shape-controlled metal nanoparticles and their functionalization by biomolecules such as DNA, towards designing exotic smart metamaterials.
•Plasmonic nanoparticles for cancer diagnostics and therapeutics. Isogentic health/tumor cell lines have been successfully used for synthesizing tumor cell-specific DNA aptamers, the aptamer-conjugated gold nanoparticles could target cancel cells and enhance tumor cell killing upon light illumination.
•Nano-enabled wearable biomedical diagnostic tools for monitoring key health information anytime anywhere. Ultrathin gold and copper nanowires have been successfully used to synthesize unique electronic skin materials which were then used to fabricate wearable sensors for real-time monitoring wrist pulses, tendon movement, skin/muscle health, etc.
资料来源:
http://users.monash.edu.au/~wenlongc/
