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《科学前沿报告会》 第474期

科学前沿报告会(474)

报告题目

Formation of Surface Silver Nano-network Structures through Hot Electron Regulated Diffusion-limited Aggregation

报 告 人

楊志忠 臺灣大學光電所

报告地点

北京大学物理学院中楼215

报告时间

2019年6月27日 (星期四) 16:00-17:00

联 系 人

古英 (Tel: 62752882)

报告摘要

A surface Ag nano-network pattern is formed by first depositing Ag nanoparticles (NPs) on a conductive template, which has a certain defect structure, and then illuminating the Ag NPs with ultraviolet (UV) light in a moist environment. Such an Ag nano-network pattern consists of multiple connected Brownian trees (BTs), which are produced through the diffusion-limited aggregation (DLA) process. In the DLA process, diffuse Ag+ ions, which are generated by UV light illumination and dissolved by a thin adsorbed water layer on the surfaces of the Ag NPs and used GaN template, settle to form a BT through the combination with excited hot electrons migrating into the template from the Ag NPs. The lateral transport of hot electrons in the template is regulated by the distributions of threading dislocation and point defect cluster in the template, which eventually become the centers of BTs. The structure of a surface Ag nano-network can potentially serve as a transparent conductor.

 

报告人简介:Professor Yang received his BS and Ph.D. degrees, both in electrical engineering, from National Taiwan University and University of Illinois at Urbana-Champaign, in 1976 and 1984, respectively. After nine year service as a faculty member at the Pennsylvania State University, he returned to Taiwan in 1993 and became a faculty member in the Institute of Photonics and Optoelectronics, and Department of Electrical Engineering, National Taiwan University, in which he is currently a distinguished professor. During 2001-2007, he served as the director of the Institute of Photonics and Optoelectronics, National Taiwan University. Professor Yang has published about 300 SCI journal papers and made more than 700 presentations at prestigious international conferences, including over 130 invited talks. His research areas include MBE and MOCVD growths of wide-band-gap semiconductor nanostructures (GaN and ZnO), LED fabrication, plasmonics, and bio-photonics. He is a fellow of OSA and SPIE.

 

 

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