The inverted polymer solar cells using cuprous oxide as a hole transportation layer

Abstract: Solution processed-metal oxide as an interlayer is introduced between the organic layer and the electrode for improving the performance of the low-cost inverted polymer solar cells. Our investigations indicate that cuprous oxide thin film as an electron blocking layer can modulate the schottky barrier at organic/electrode interface and form an ohmic contact. Moreover, we also report the ridge structure zinc oxide as an electron selective layer in the inverted polymer solar cells. The cuprous oxide can function… Show more

“…In particular, a TiO 2 /Cu 2 O heterojunction solar cell fabricated by an easily up-scalable spray-pyrolysis technique has been reported [19]. There have been several attempts to adopt Cu 2 O as an HTM in organic solar cells as well [20]. However, the compatibilities of using Cu 2 O in perovskite solar cells were rarely reported.…”

Towards printed perovskite solar cells with cuprous oxide hole transporting layers: a theoretical design

“…In particular, a TiO 2 /Cu 2 O heterojunction solar cell fabricated by an easily up-scalable spray-pyrolysis technique has been reported [19]. There have been several attempts to adopt Cu 2 O as an HTM in organic solar cells as well [20]. However, the compatibilities of using Cu 2 O in perovskite solar cells were rarely reported.…”

Towards printed perovskite solar cells with cuprous oxide hole transporting layers: a theoretical design