An effective strategy of engineering side chains is proposed for enhancing solar-cell-device thermal stability. As the conjugated length of the side chains increases, the morphological stability of the blend film is enhanced. The thermal stability of corresponding devices is consequently improved
Stability of bulk heterojunction films for organic solar cells is a critical factor for commercial v...
We report structure evolution of fused-ring electron acceptors(FREAs)towards high efficiency of poly...
Nowadays, the use of renewable energy resources has been considered as one of the imminent issues in...
Organic photovoltaics represent a promising thin-film solar cell technology with appealing mechanica...
The performance of polymer solar cells is strongly dependent on the morphology of the photoactive la...
The performance of polymer solar cells is strongly dependent on the morphology of the photoactive la...
International audienceThe impact of side-chain variations on the photothermal stability of solar cel...
Thermal degradation by intrinsic morphological change and extrinsic oxidation remain outstanding ch...
Side-chain engineering of conjugated polymer donor materials is an important way for improving photo...
\u3cp\u3eAll-polymer solar cells (all-PSCs) composed of conjugated polymers as both donor and accept...
All-polymer solar cells (all-PSCs) composed of conjugated polymers as both donor and acceptor compon...
P3HT:PCBM blends applied as active layers for bulk heterojunction organic solar cells generally show...
The stability of polymer solar cells (PSCs) can be influenced by the introduction of particular moie...
A new series of donor acceptor co-polymers based on benzodithiophene and quinoxaline with various si...
This thesis focuses on the investigation of two strategies for stabilizing the photovoltaic performa...
Stability of bulk heterojunction films for organic solar cells is a critical factor for commercial v...
We report structure evolution of fused-ring electron acceptors(FREAs)towards high efficiency of poly...
Nowadays, the use of renewable energy resources has been considered as one of the imminent issues in...
Organic photovoltaics represent a promising thin-film solar cell technology with appealing mechanica...
The performance of polymer solar cells is strongly dependent on the morphology of the photoactive la...
The performance of polymer solar cells is strongly dependent on the morphology of the photoactive la...
International audienceThe impact of side-chain variations on the photothermal stability of solar cel...
Thermal degradation by intrinsic morphological change and extrinsic oxidation remain outstanding ch...
Side-chain engineering of conjugated polymer donor materials is an important way for improving photo...
\u3cp\u3eAll-polymer solar cells (all-PSCs) composed of conjugated polymers as both donor and accept...
All-polymer solar cells (all-PSCs) composed of conjugated polymers as both donor and acceptor compon...
P3HT:PCBM blends applied as active layers for bulk heterojunction organic solar cells generally show...
The stability of polymer solar cells (PSCs) can be influenced by the introduction of particular moie...
A new series of donor acceptor co-polymers based on benzodithiophene and quinoxaline with various si...
This thesis focuses on the investigation of two strategies for stabilizing the photovoltaic performa...
Stability of bulk heterojunction films for organic solar cells is a critical factor for commercial v...
We report structure evolution of fused-ring electron acceptors(FREAs)towards high efficiency of poly...
Nowadays, the use of renewable energy resources has been considered as one of the imminent issues in...
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