报告题目:Scalable Nanostructures for Energy Storage and Flexible Electronics(纳米结构在能源和柔性电子上的应用)
报告人:Liangbing (Bing) Hu胡良兵教授(美国马里兰大学)
报告时间:2015年1月19日上午9:30-10:30
报告地点:制浆造纸工程国家重点实验室新楼306会议室
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华南理工大学
制浆造纸工程国家重点实验室
二〇一五年一月九日
报告内容:
This presentation will discuss Bing group’s work in the past three years related to nanostructures for energy devices and flexible electronics.
1. Nanostructured paper with 1D wood cellulose for solar cells, batteries and flexible electronics. I will discuss our recent results and the fundamental science of novel transparent paper with tailored optical and mechanical properties, and applications in flexible electronics, origami devices and solar cells. I will also discuss the fundamental advantages of using mesoporous, soft wood fibers for low-cost Na-ion batteries.
2. Intercalation of 2D materials for batteries and transparent electrodes. I will discuss the manipulations of electrons, ions, photons, and phonons in scalable paper-like thin films with 2D materials. Examples will include our recent innovative work on intercalation optoelectronics on graphene (electron, ion and photon) and high-performance Na-ion batteries (electrons, ion).
报告人简介:
Liangbing Hu received his B.S. in applied physics from the University of Science and Technology of China (USTC) in 2002. He did his Ph.D. in at UCLA (with George Gruner), focusing on carbon nanotube based nanoelectronics. In 2006, he joined Unidym Inc(www.unidym.com) as a co-founding scientist. At Unidym, Liangbing’s role was the development of roll-to-roll printed carbon nanotube transparent electrodes and device integrations into touch screens, LCDs, flexible OLEDs and solar cells. He worked at Stanford University (with Yi Cui)from 2009-2011, where he work on various energy devices based on nanomaterials and nanostructures. Currently, he is an assistant professor at University of Maryland College Park. His research interests include nanomaterials and nanostructures, roll-to-roll nanomanufacturing, energy storage and conversion, and printed electronics, with a focus on green materials.
