Stable Inverted Low-Bandgap Polymer Solar Cells with Aqueous Solution Processed Low-Temperature ZnO Buffer Layers

Stable Inverted Low-Bandgap Polymer Solar Cells with Aqueous Solution Processed Low-Temperature ZnO Buffer Layers

Efficient inverted low-bandgap polymer solar cells with an aqueous solution processed low-temperature ZnO buffer layer have been investigated. The low-bandgap material PTB-7 is employed so that more solar light can be efficiently harvested, and the aqueous solution processed ZnO electron transport b...

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Veröffentlicht in:International Journal of Photoenergy 2016-01, Vol.2016 (2016), p.368-374
Hauptverfasser: Zhang, Jincheng, Jiang, Qubo, Lu, Gang, Han, Genquan, You, Hailong, Heng, Ting, Pang, Shangzheng, Zhang, Chunfu, He, Fengqin
Format: Artikel
Sprache:eng
Schlagworte:
Aqueous solutions
Buffer layers
Design and construction
Devices
Dielectric films
Energy conversion efficiency
Materials
Morphology
Optical properties
Photovoltaic cells
Polymers
Solar batteries
Solar cells
Solar energy
Studies
Temperature
Thin films
Zinc oxide
Zinc oxides
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Zusammenfassung:Efficient inverted low-bandgap polymer solar cells with an aqueous solution processed low-temperature ZnO buffer layer have been investigated. The low-bandgap material PTB-7 is employed so that more solar light can be efficiently harvested, and the aqueous solution processed ZnO electron transport buffer layer is prepared at 150°C so that it can be compatible with the roll-to-roll process. Power conversion efficiency (PCE) of the inverted device reaches 7.12%, which is near the control conventional device. More importantly, the inverted device shows a better stability, keeping more than 90% of its original PCE after being stored for 625 hours, while PCE of the conventional device is only 75% of what it was. In addition, it is found that the ZnO thin film annealed in N2 can obviously increase PCE of the inverted device further to 7.26%.
ISSN:1110-662X
1687-529X
DOI:10.1155/2016/3675036