標題: 超分子材料及自組裝奈米複合物之合成與研究
Syntheses and Study of Supramolecular Materials and Self-Assembled Nanocomposites
作者: 林宏洲
LIN HONG-CHEU
國立交通大學材料科學與工程學系(所)
關鍵字: 超分子作用力;氫鍵;奈米粒子(或奈米棒);生物感測;化學感測;太陽能電 池;液晶材料;軟性光電及電子元件;Supramolecular interaction;Hydrogen bonding;Nanoparticle (or nanorod);Biosensor;Chemosensor;Solar cell;Liquid crystalline material;Flexible electro-optical and electronic device
公開日期: 2012
摘要: 本計畫主要將運用超分子作用力(即氫鍵)於具光電性質之有機及奈米粒子材料等不 同方向。有機、高分子、及奈米粒子間互補性成份之超分子作用力將具有光電及光學性 質之重要影響力。在有機材料結構中或其與奈米粒子(或奈米棒)間擁有超分子作用力的 化學生物感測、太陽能電池、及液晶材料將會特別被關注及研究。氫鍵對這些超分子材 料及超分子奈米複合材料(含奈米粒子或奈米棒)之前述光電或光學性質的效應將會被完 整的探討並發展為未來軟性光電及電子元件之應用。
This project will focus on the applications of supramolecular interactions (including hydrogen bonding) to electro-optical organics and nanoparticles in various aspects. The supramolecular interactions of complimentary moieties among organics, polymers, and nanoparticles will have important influence on their electro-optical or optical properties. Biosensor, chemosensor, solar cell, and liquid crystalline materials possessing supramolecular interactions among organics or between organics and nanoparticles (or nanorods) will be specially concerned and studied. The effects of hydrogen bonds on previous electro-optical or optical properties of these supramolecular materials and supramolecular nanocomposites (containing nanoparticles or nanorods) will be fully investigated and developed to flexible electro-optical and electronic devices in the future.
官方說明文件#: NSC101-2113-M009-013-MY2
URI: http://hdl.handle.net/11536/98499
https://www.grb.gov.tw/search/planDetail?id=2581142&docId=388646
顯示於類別:研究計畫