AbstractThe use of high boiling point additives in solution processing has been widely employed to control the active layer morphology in bulk heterojunction organic solar cells. The morphology of the heterojunction is crucial in controlling charge separation and extraction by the electrodes, and therefore the power conversion efficiency (PCE) of the device. This paper presents a study of time-resolved fluorescence quenching in blends of P3HT containing varying concentrations of the fullerenes PC61BM or PC71BM. The relationship between the fluorescence quenching rate and fullerene concentration indicates that the fullerene molecules are dispersed within the P3HT film for up to 5% by mass of fullerene. For higher fullerene concentrations, th...
The effect of fullerene ratio PCBM and ICBA on the P3HT-based solar cells were investigated under am...
Nanoscale morphology is critical to determining the device efficiency of bulk heterojunction organic...
The morphology of the active layer in polymer:fullerene solar cells is a key parameter for the perfo...
The use of high boiling point additives in solution processing has been widely employed to control t...
AbstractThe use of high boiling point additives in solution processing has been widely employed to c...
The bis and tris adducts of [6,6]phenyl-C61-butyric acid methyl ester (PCBM) offer lower reduction p...
AbstractThe effect of fullerene ratio PCBM and ICBA on the P3HT-based solar cells were investigated ...
International audienceDespite the constant improvement of their power conversion efficiencies, organ...
Organic bulk heterojunction solar cells use polymer thin film technology which is cost effective, fl...
The performance of organic solar cells (OSCs) depends crucially on the morphology in bulk heterojunc...
We use solvent additives as a simple method to tune the photovoltaic performance of poly-3-hexylthio...
In this study, we demonstrated the effective morphological control of polymer:fullerene blends using...
The most efficient organic solar cells produced to date are bulk heterojunction (BHJ) photovoltaic d...
The use of diiodooctane as processing additive for construction of PCPDTBT:PCBM solar cells results ...
The morphology of the active layer in polymer:fullerene solar cells is a key parameter for the perfo...
The effect of fullerene ratio PCBM and ICBA on the P3HT-based solar cells were investigated under am...
Nanoscale morphology is critical to determining the device efficiency of bulk heterojunction organic...
The morphology of the active layer in polymer:fullerene solar cells is a key parameter for the perfo...
The use of high boiling point additives in solution processing has been widely employed to control t...
AbstractThe use of high boiling point additives in solution processing has been widely employed to c...
The bis and tris adducts of [6,6]phenyl-C61-butyric acid methyl ester (PCBM) offer lower reduction p...
AbstractThe effect of fullerene ratio PCBM and ICBA on the P3HT-based solar cells were investigated ...
International audienceDespite the constant improvement of their power conversion efficiencies, organ...
Organic bulk heterojunction solar cells use polymer thin film technology which is cost effective, fl...
The performance of organic solar cells (OSCs) depends crucially on the morphology in bulk heterojunc...
We use solvent additives as a simple method to tune the photovoltaic performance of poly-3-hexylthio...
In this study, we demonstrated the effective morphological control of polymer:fullerene blends using...
The most efficient organic solar cells produced to date are bulk heterojunction (BHJ) photovoltaic d...
The use of diiodooctane as processing additive for construction of PCPDTBT:PCBM solar cells results ...
The morphology of the active layer in polymer:fullerene solar cells is a key parameter for the perfo...
The effect of fullerene ratio PCBM and ICBA on the P3HT-based solar cells were investigated under am...
Nanoscale morphology is critical to determining the device efficiency of bulk heterojunction organic...
The morphology of the active layer in polymer:fullerene solar cells is a key parameter for the perfo...