报告题目：Advanced Carbon Nanomaterials for Flexible Electronics

报 告 人 ：Dr Zheng Lianxi,

Khalifa University of Science and Technology, UAE

报告时间：2018年6月14日上午10:00

报告地点：化学楼二楼一号会议室

报告人简介：Dr. Lianxi Zheng received his BE degree in Electronic Engineering from Southeast University (1988, China), and his Ph.D. in Physics from The University of Hong Kong (2001, China). He has worked in Los Alamos National Laboratory and CNT Technologies Inc. (2003-2008), Nanyang Technological University (2008-2013), and Khalifa University (2014-present).

He has made many significant contributions in the area of carbon nanotubes, including the invention of a CVD method to produce world-record long (40mm) CNTs. During his career, he has gained several awards, including 2 Nano 50 Award from NASA, applied 3 US patents on CNT preparation. He has been the treasurer and committee member of IEEE Nanotechnology Chapter (Singapore section), and a member of the editor board of several scientific journals. Dr. Zheng has published more than 100 papers in high quality journals, including Nature Materials, Physical Review Letters, Advanced Materials, Agnew, Chem, Int. Ed., Small, etc. His current research interests are carbon nanomaterials and their composites & hybrids. The potential applications include artificial muscle, e-textile, nano-mechanics, nano-electronics, energy harvest/storage devices, and nanostructured bio-sensors.

报告摘要：

Motivated by the flexible smart phones, intelligent bracelets, Google Glasses, and i-watch, great interest has recently been aroused in flexible/wearable electronics. Many materials, structures, and devices are designed and fabricated in response to this increasing demand from smart consumer electronics, and a wide spectrum of new applications have been identified in the fields of sensing, personal health monitoring, and energy management as the technology advances. In this talk, the speaker will present the research progress in his group on flexible conductors, flexible memory devices, and flexible energy storage devices based on carbon nanomaterials.