Managing grains and interfaces via ligand anchoring enables 22.3%-efficiency inverted perovskite solar cells

能量转换效率 钙钛矿(结构) 材料科学 光电子学 晶界 光伏 粒度 纳米技术 结晶学 化学 光伏系统 工程类 电气工程 微观结构 冶金
作者
Xiaopeng Zheng,Yi Hou,Chunxiong Bao,Jun Yin,Fanglong Yuan,Ziru Huang,Kepeng Song,Jiakai Liu,Joel Troughton,Nicola Gasparini,Chun Zhou,Yuanbao Lin,Ding‐Jiang Xue,Bin Chen,Andrew Johnston,Nini Wei,Mohamed Nejib Hedhili,Mingyang Wei,Abdullah Y. Alsalloum,Partha Maity
出处
期刊:Nature Energy [Nature Portfolio]
卷期号:5 (2): 131-140 被引量:1231
标识
DOI:10.1038/s41560-019-0538-4
摘要

Inverted perovskite solar cells have attracted increasing attention because they have achieved long operating lifetimes. However, they have exhibited significantly inferior power conversion efficiencies compared to regular perovskite solar cells. Here we reduce this efficiency gap using a trace amount of surface-anchoring alkylamine ligands (AALs) with different chain lengths as grain and interface modifiers. We show that long-chain AALs added to the precursor solution suppress nonradiative carrier recombination and improve the optoelectronic properties of mixed-cation mixed-halide perovskite films. The resulting AAL surface-modified films exhibit a prominent (100) orientation and lower trap-state density as well as enhanced carrier mobilities and diffusion lengths. These translate into a certified stabilized power conversion efficiency of 22.3% (23.0% power conversion efficiency for lab-measured champion devices). The devices operate for over 1,000 h at the maximum power point under simulated AM1.5 illumination, without loss of efficiency. While perovskite solar cells with an inverted architecture hold great promise for operation stability, their power conversion efficiency lags behind that of conventional cells. Here, Zheng et al. achieve a certified 22.34% efficiency, exploiting alkylamine ligands as grain and interface modifiers.
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