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Gradient Energy Alignment Engineering for Planar Perovskite Solar Cells with Efficiency Over 23%

Pengyang Wang, Renjie Li, Bingbing Chen, Fuhua Hou, Jie Zhang, Ying Zhao, Xiaodan Zhang

2020Advanced Materials253 citationsDOI

Abstract

Abstract An electron‐transport layer (ETL) with appropriate energy alignment and enhanced charge transfer is critical for perovskite solar cells (PSCs). However, interfacial energy level mismatch limits the electrical performance of PSCs, particularly the open‐circuit voltage ( V OC ). Herein, a simple low‐temperature‐processed In 2 O 3 /SnO 2 bilayer ETL is developed and used for fabricating a new PSC device. The presence of In 2 O 3 results in uniform, compact, and low‐trap‐density perovskite films. Moreover, the conduction band of In 2 O 3 is shallower than that of Sn‐doped In 2 O 3 (ITO), enhancing the charge transfer from perovskite to ETL, thus minimizing V OC loss at the perovskite and ETL interface. A planar PSC with a power conversion efficiency of 23.24% (certified efficiency of 22.54%) is obtained. A high V OC of 1.17 V is achieved with the potential loss at only 0.36 V. In contrast, devices based on single SnO 2 layers achieve 21.42% efficiency with a V OC of 1.13 V. In addition, the new device maintains 97.5% initial efficiency after 80 d in N 2 without encapsulation and retains 91% of its initial efficiency after 180 h under 1 sun continuous illumination. The results demonstrate and pave the way for the development of efficient photovoltaic devices.

Topics & Concepts

Materials scienceEnergy conversion efficiencyPerovskite (structure)OptoelectronicsPlanarBilayerPhotovoltaic systemPerovskite solar cellConduction bandNanotechnologyElectronChemical engineeringElectrical engineeringComputer graphics (images)BiologyEngineeringGeneticsMembraneComputer scienceQuantum mechanicsPhysicsPerovskite Materials and ApplicationsConducting polymers and applicationsQuantum Dots Synthesis And Properties