Abstract
In order to improve the inherently inefficient hole extraction from perovskite to carbon electrode in planar carbon-based perovskite solar cells (PSCs), herein, a novel composite electrode composed of single-atom Ni doped graphene (Ni-NG) for PSCs is proposed for the first time. Ni-NG with low work function provides a great driving force to improve the hole extraction at the interface. Meanwhile, Ni-NG with abundant single-atom Ni active sites and large specific surface area can accelerate charge transport and strengthen interface contact. Optimized PSCs with composite electrode based on Ni-NG achieved a champion power conversion efficiency (PCE) of 12.39%, higher than PSCs with pristine carbon electrode and composite electrode based on NG. Our work exploits the application of single-atom Ni doped graphene as carbon electrode and provides new insights into the structure design of carbon electrode to obtain efficient planar carbon-based PSCs.
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