%0 Journal Article %1 zhou2017stable %A Zhou, Zhongmin %A Li, Xing %A Cai, Molang %A Xie, Fengxian %A Wu, Yongzhen %A Lan, Zhang %A Yang, Xudong %A Qiang, Yinghuai %A Islam, Ashraful %A Han, Liyuan %D 2017 %I Wiley Online Library %J Advanced Energy Materials %K additionally flexible inverted perovskite %R 10.1002/aenm.201700763 %T Stable Inverted Planar Perovskite Solar Cells with Low‐Temperature‐Processed Hole‐Transport Bilayer %U https://doi.org/10.1002/aenm.201700763 %X Low-temperature-processed perovskite solar cells (PSCs), which can be fabricated on rigid or flexible substrates, are attracting increasing attention because they have a wide range of potential applications. In this study, the stability of reduced graphene oxide and the ability of a poly(triarylamine) underlayer to improve the quality of overlying perovskite films to construct hole-transport bilayer by means of a low-temperature method are taken advantage of. The bilayer is used in both flexible and rigid inverted planar PSCs with the following configuration: substrate/indium tin oxide/reduced graphene oxide/polytriarylamine/CH3NH3PbI3/PCBM/bathocuproine/Ag (PCBM = 6,6-phenyl-C61-butyric acid methyl ester). The flexible and rigid PSCs show power conversion efficiencies of 15.7 and 17.2%, respectively, for the aperture area of 1.02 cm2. Moreover, the PSC based the bilayer shows outstanding light-soaking stability, retaining ≈90% of its original efficiency after continuous illumination for 500 h at 100 mW cm−2.

@article{zhou2017stable, abstract = {Low-temperature-processed perovskite solar cells (PSCs), which can be fabricated on rigid or flexible substrates, are attracting increasing attention because they have a wide range of potential applications. In this study, the stability of reduced graphene oxide and the ability of a poly(triarylamine) underlayer to improve the quality of overlying perovskite films to construct hole-transport bilayer by means of a low-temperature method are taken advantage of. The bilayer is used in both flexible and rigid inverted planar PSCs with the following configuration: substrate/indium tin oxide/reduced graphene oxide/polytriarylamine/CH3NH3PbI3/PCBM/bathocuproine/Ag (PCBM = [6,6]-phenyl-C61-butyric acid methyl ester). The flexible and rigid PSCs show power conversion efficiencies of 15.7 and 17.2%, respectively, for the aperture area of 1.02 cm2. Moreover, the PSC based the bilayer shows outstanding light-soaking stability, retaining ≈90% of its original efficiency after continuous illumination for 500 h at 100 mW cm−2.}, added-at = {2017-10-25T11:39:05.000+0200}, author = {Zhou, Zhongmin and Li, Xing and Cai, Molang and Xie, Fengxian and Wu, Yongzhen and Lan, Zhang and Yang, Xudong and Qiang, Yinghuai and Islam, Ashraful and Han, Liyuan}, biburl = {https://www.bibsonomy.org/bibtex/2e1ed72811eaccfe0ef6f0be357fc74e6/bretschneider_m}, doi = {10.1002/aenm.201700763}, interhash = {7682c398fdde000d7da33bf0d7cc955e}, intrahash = {e1ed72811eaccfe0ef6f0be357fc74e6}, issn = {1614-6840}, journal = {Advanced Energy Materials}, keywords = {additionally flexible inverted perovskite}, month = {8}, publisher = {Wiley Online Library}, timestamp = {2017-10-25T11:39:05.000+0200}, title = {Stable Inverted Planar Perovskite Solar Cells with Low‐Temperature‐Processed Hole‐Transport Bilayer}, url = {https://doi.org/10.1002/aenm.201700763}, year = 2017 }