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Trivalent Ni oxidation controlled through regulating lithium content to minimize perovskite interfacial recombination

Jinjin Zhao, Xiao Su, Mi Zhou, Ying Zhang, Yan‐Jun Hu, Huajun Guo, Yinan Jiao, Yuxia Zhang, Yan Shi, Weizhong Hao, Jingwei Wu, Yi Wang, Cun‐Fa Gao, Guozhong Cao

2021Rare Metals17 citationsDOI

Abstract

Abstract Organic–inorganic hybrid perovskite solar cells, one of the most promising photovoltaic devices, have made great progress in their efficiency and preparation technology. In this study, uniform, highly conductive Li n NiO x (0 ≤ n ≤ 1; 0< x ≤ 3) films were prepared by electrochemical deposition for a range of Li concentration. Photovoltaic performance for the perovskite solar cells was enhanced through incorporation of the ion pair of Ni 3+ ↔ Ni 2+ as the interfacial passivation. Depending on the amount of lithium doping, controlled interfacial oxidation was induced by Ni 3+ . The Li 0.32 NiO x inhibited charge recombination, reduced the defect density, and enhanced the photocurrent density. A maximum power conversion efficiency of 20.44% was obtained by Li 0.32 NiO x . Further, in the long‐term, in‐air stabilities of unencapsulated Li n NiO x perovskite solar cells were demonstrated.

Topics & Concepts

Materials sciencePhotocurrentPassivationPerovskite (structure)Lithium (medication)Energy conversion efficiencyChemical engineeringDopingElectrochemistryPhotovoltaic systemDeposition (geology)RecombinationInorganic chemistryOptoelectronicsElectrodeNanotechnologyPhysical chemistryLayer (electronics)ChemistrySedimentBiochemistryMedicinePaleontologyEngineeringEndocrinologyEcologyGeneBiologyPerovskite Materials and ApplicationsConducting polymers and applicationsQuantum Dots Synthesis And Properties
Trivalent Ni oxidation controlled through regulating lithium content to minimize perovskite interfacial recombination | Litcius