Facility Agriculture: Intelligent SensorsDepartment of Chemistry / Yeh, Chen-Yu / Distinguished Professor  
設施農業:智慧感測【化學系/葉鎮宇特聘教授】

論文篇名 英文:All-Porphyrin Photovoltaics with Power Conversion Efficiency of 7.2%
中文:光電轉換效率為7.2%之全紫質光伏電池
期刊名稱 ACS ENERGY LETTERS
發表年份,卷數,起迄頁數 20205 (8), 2641–2650
作者 Chiang, Yun-Ju; Hsiao, Yi-Hsuan; Chen, Yu-Hsuan; Hung, Chieh-Ming; Chen, Hsieh-Chih*; Yeh, Chen-Yu(葉鎮宇)*
DOI 10.1021/acsenergylett.0c01128
中文摘要 在此篇論文報導中, 我們藉由官能基的改變調整鋅紫質其分子軌域的能階高低,分別為D1及A1兩化合物,其中D1在光伏電池中扮演電子供給者的角色,A1則扮演電子授予者的角色,此兩分子間的堆疊效應也能改善分子間電荷傳輸。此外D1及A1相較於彼此的吸光範圍上有互補的效果,這一特性能提升對太陽光的吸收。將D1及A1以1:0.5 製成光伏元件,優化條件後其光電轉換效率可達7.21%。
英文摘要 In this Letter, two zinc porphyrin small molecules D1 and A1 with different functional groups have been employed as the donor and acceptor, respectively, for the construction of all-porphyrin photovoltaics (APPs). The strong electron-donating phenylamino moiety ensures the D1 small molecule with a high-lying highest occupied molecular orbital energy level aligns a cascade energy level with the A1 small molecule, accomplishing the driving force for exciton dissociation and prompting
intermolecular π−π stacking to ameliorate the intermolecular charge transport. Meanwhile, good complementary absorptions between D1 donor and A1 acceptor greatly contribute to harvesting more solar flux. For the optimized devices, 1:0.5 D1:A1 device delivered a relatively high power conversion efficiency of 7.21% with an open-circuit voltage of 0.76 V, a short-circuit current density of 14.43 mA cm2, a fill factor of 65.7%, and a small energy loss of 0.61 eV.