Title :
Synthesis and photovoltaic properties of a new donor-acceptor conjugated polymer based on fluorinated benzothiadiazole units
Author :
Medlej, Hussein ; Nourdine, Ali ; Awada, Hussein ; Abbas, Montasir ; Dagron-Lartigau, Christine ; Wantz, Guillaume ; Flandin, Lionel
Author_Institution :
LEPMI, Univ. de Savoie, Le Bourget-du Lac, France
Abstract :
A novel fluorinated copolymer (PDTSffBT) based on dithienosilole donor unit and fluorinated benzothiadiazole acceptor unit has been synthesized for polymer solar cells. This copolymer exhibits a deeper HOMO energy level compared to that of hydrogenated benzothiadiazole-based copolymer (PDTSBT), resulting in high open-circuit voltages well exceeding 0.75 V. The introduction of the two electron-withdrawing fluorine atoms on the benzothiadiazole unit also leads to an increase in the molar extinction coefficient as well as the interchain interaction in the PDTSffBT copolymer with respect to its analogue PDTSBT copolymer. Power conversion efficiency (PCE) of the device using PDTSffBT:PC71BM as active layer (2.93 %) is much higher than of a PDTSBT:PC71BM (1.64 %) counterpart under identical conditions.
Keywords :
impurity states; photovoltaic cells; polymer blends; solar cells; HOMO energy level; PDTSBT copolymer; PDTSffBT copolymer; dithienosilole donor unit; donor-acceptor conjugated polymer; electron-withdrawing fluorine atoms; fluorinated benzothiadiazole acceptor units; interchain interaction; molar extinction coefficient; photovoltaic properties; polymer solar cells; power conversion efficiency; Energy states; Performance evaluation; Photonic band gap; Photovoltaic cells; Photovoltaic systems; Polymers; conjugated polymer; donor-acceptor copolymer; fluorine; organic solar cells; photovoltaic cells;
Conference_Titel :
Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th
Conference_Location :
Denver, CO
DOI :
10.1109/PVSC.2014.6925263
