私立東海大學 學士,民國七十三年
Tunghai
University, Taiwan, 1984
美國麻州大學羅爾校區 碩士,民國七十七年
M.S.
University of Massachusetts Lowell, USA, 1988
美國麻州大學羅爾校區 博士,民國八十二年
Ph.D.
University of Massachusetts Lowell, USA, 1993
國立清華大學博士後研究,民國八十二年至八十三年
Postdoctoral
Fellow, Natonal Tsing Hua University, 1993-1994
國立中興大學 副教授,民國八十三年至九十二年
Associate
Professor, National Chung Hsing University,1994-2003
國立中興大學 教授,民國九十二年至一百年
Professor,
National Chung Hsing University,2003-2011
國立台灣大學 教授,民國一百年迄今
Professor,
National Taiwan University,2011~
目前研究重點著重於四個方向:
二階非線性光學高分子材料:
其研究包括良好的材料之光學特性及非線性係數,高熱穩定性,高機械強度,和易加工等特性的設計和探討,使材料能達到最大的應用價值。
高性能有機 /無機混成材料:
其中著重在有機/無機混成材料之開發,並進一步探討兩相優越性質之加成性並研究形態對於材料物性之影響。
Dendrimer:
Poly(urethane
/ Malonamide)為本實驗室發展之Dendrimer系統,其主要應用為液晶、molecular
encapsulation catalysis、self-assembly systems及光電材料等。
有機太陽能電池:
含側鏈發光團基有機太陽能高分子之合成為其研究之項目,與小分子有機太陽能電池。
Most of my research interests are concentrated
in four areas:
The first is to develop stable second-order
nonlinear optical (NLO) polymeric materials. An optimized NLO material requires
balancing among NLO properties, optical quality, thermal stability, mechanical
properties, and process ability.
The second area to develop a
new breed of advanced polymers based on organic-inorganic hybrid materials.
Specially designed interaction between two components is imperative to achieve
hybrid materials with excellent optical quality, enhanced mechanical and
thermal properties. The relationship between morphology and physical properties
is the focal point of the study.
The third area is to develop
dendritic polymers, namely dendrimers, which are good
candidates for liquid crystalline systems, molecular encapsulation catalysis,
self-assembly systems and electro-optical materials. The approach in our
laboratory involves polyurethane / Malonamide
systems.
The fourth area is to develop
side-chain organic polymer solar cell.
八十五年度國科會甲等研究獎助
八十七年度國科會甲等研究獎助
八十八年度國科會甲等研究獎助
八十九年度國科會甲等研究獎助
八十八年度高分子學會年會高分子研討會優良壁報獎
九十六年度高分子聯合會議壁報論文競賽佳作
聯絡電話:(02)3366-5884
rujong@ntu.edu.tw