2014-01-142024-05-18https://scholars.lib.ntu.edu.tw/handle/123456789/706607摘要：本計畫欲利用台灣多組研究團隊，與美國阿岡國家實驗室的研究團隊相互合作，目的為達成高效率， 高穩定性，以及大規模製程的有機太陽能光伏元件。本計畫的工作項目包含以下幾點: (1) 利用美國阿 岡實驗室的頂尖技術，包含穿透及掃描式電子顯微鏡，X 光及中子散射等，調控以及分析異質接面薄 膜的三維奈米結構，(2) 發展可大面積，並可以運用到捲軸式連續製程的鍍膜技術，以建立的分析技術 以及調控以及鑑定製程參數，(3) 合成開發以及鑑定具有潛力達高效率有機太陽能電池的新材料，包含 有機小分子，寡聚分子，及高分子等，(4) 設計更有效率且更穩定的元件結構，並延伸至大面積的製程。 以上這四種技術將由台灣以及美國的團隊相互分工完成，並且將保持緊密的合作，將四個主要研究方 向相互連結並且致力達到設立的目標，在有機太陽能電池領域中有顯著進步及突破。<br> Abstract: The present program aims to build a collaboration of the experts and scientists between Taiwan and Argonne National Lab, U.S.A. The main goal of this project is to develop high efficient, stable and large area organic photovoltaics (OPV). The investigations include several parts executed by the research groups from both sides, i.e. (1) manipulation and characterization of bulk heterojunction (BHK) morphology through X-ray/neutron scattering techniques and related electron microscopic techniques, (2) development of film forming process which is applicable to large scale production and roll-to-roll process, (3) synthesis and characterization of novel organic materials including small molecules, oligomers, and conducting polymers for high efficient OPV, and (4)development of innovative device structures that are more efficient and air stable. We expect the close collaboration among the research groups ensures the inter-connection of the four investigation directions that are helpful for achieving significant advance in OPV system.異質接面太陽能電池高分子形態Bulk heterojunctionSolar cellpolymermorphology