標題: | 應用苯并呋喃於主鏈予體-受體高分子之異質接面太陽能電池元件研究 Benzooxadiazole-based Main Chain Donor-Acceptor Polymers and Their Applications for Bulk Heterojunction Solar Cells |
作者: | 俞嘉珉 Yu, Chia-Min 韋光華 Wei, Kung-Hwa 材料科學與工程學系所 |
關鍵字: | 有機太陽能電池;苯并呋喃;施蒂勒;鈴木;organic solar cell;Benzooxadiazole;Stille;Suzuki |
公開日期: | 2013 |
摘要: | 在本研究中,我們分別使用施蒂勒(Stille)與鈴木(Suzuki)聚合一系列包含C-、Si-、N-鍵橋之聯噻吩(Bithiophene)與芴(Fluorene)推電子基團和2,1,3-苯并呋喃(2,1,3-Benzooxadiazole)強拉電子基團高分子−PCyTBO、PCySiTBO、PCyNTBO、PFTBO、PAFTBO和PCTBO。PCyTBO、PCySiTBO和PCyNTBO高分子具有寬廣吸收光譜(300−700 nm),而且PCySiTBO具有結晶性可以增加載子傳輸(短路電流高達10.8 mA cm–2),其中PCySiTBO與PC71BM摻混比例1:1製成元件並使用1,8-二碘辛烷(1,8-diiodooctane)當作添加劑可得效率高達5.0%。另外,PFTBO、PAFTBO和PCTBO高分子具有不錯的溶解度和較低之最高佔有分子軌域(其中PFTBO之HOMO能階為−5.53 eV),此高分子PFTBO、PAFTBO和PCTBO分別具有不錯的電洞遷移率(3.1 × 10–5, 8.7 × 10–5, 1.8 × 10–4 cm2 V–1 s–1),PCTBO具有平均分子量46.3 kD且製備成元件顯示其具有較大的開路電壓可高達1.04 V,且元件摻混PC61BM不需其他前製程可得效率4.1%。 In this study, we used Stille and Suzuki coupling polymerization to synthesize a series of polymers (PCyTBO, PCySiTBO, PCyNTBO, PFTBO, PAFTBO and PCTBO) containing electron-rich C-, Si-, N-bridged bithiophene、Fluorene and strong electron-deficient 2,1,3-Benzooxadiazole units respectively. Polymers (PCyTBO, PCySiTBO and PCyNTBO) exhibited broad spectral absorptions (300−700 nm), and PCySiTBO showed some crystallinity with increased transparency (Jsc as high as 10.8 mA cm–2). The photovoltaic device incorporating the PCySiTBO/PC71BM (1:1) blend system and 1,8-diiodooctane (2 vol %) as an additive exhibited good performance up to 5.0%. Besides, Polymers (PFTBO, PAFTBO and PCTBO) exhibited good solubility, low-lying energy for the highest occupied molecular orbital (HOMO) (as low as −5.53 eV for PFTBO). These polymers also possess good hole mobility of 3.1 × 10–5, 8.7 × 10–5, 1.8 × 10–4 cm2 V–1 s–1 for PFTBO, PAFTBO and PCTBO, respectively. As a result, The best performance was obtained when number-average molecular weughts (Mn) are around 46.3 kDa and photovoltaic devices showed high open circuit votage (Voc as high as 1.04 V for PCTBO). And power conversion efficiency up to 4.1% was blended PC61BM without any post treatment. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#GT070051507 http://hdl.handle.net/11536/72749 |
顯示於類別: | 畢業論文 |