期刊
ACS APPLIED MATERIALS & INTERFACES
卷 13, 期 24, 页码 28546-28554出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsami.1c05458
关键词
perovskite light-emitting diodes; efficiency roll-off; charge injection balance; ion migration; solvent treatment
资金
- General Research Fund [14307819]
- NSFC/RGC Joint Research Scheme [N_CUHK449/19]
- Research Grants Council of Hong Kong
The mechanism behind EQE roll-off in high-efficiency PeLEDs was investigated, revealing that migration and segregation of excess iodide ions from nonstoichiometric precursors triggered imbalanced charge injection. A simple wash-off treatment with chloroform and an ultra-thin PMMA interlayer were introduced to effectively suppress the roll-off behavior, leading to the achievement of high-brightness PeLEDs with improved performance.
Applying extensively excess ammonium halides in forming perovskites is a widely used approach to achieve high-performance perovskite light-emitting diodes (PeLEDs). However, most of these PeLEDs suffer from severe external quantum efficiency (EQE) roll-off at high current densities, thereby restricting the realization of high-brightness PeLEDs and laser diodes. In this work, we explore the underlying mechanism of the EQE roll-off in high-efficiency formamidinium lead iodide (FAPbI(3))-based PeLEDs. By combining voltage-dependent electrical stress measurements and ex situ ion distribution analysis of PeLEDs, we found that the electric field-driven migration and local segregation of excess iodide ions, originated from nonstoichiometric precursors, trigger the EQE roll-off via promoting imbalanced charge injection. Based on this discovery, we introduced a simple wash-off treatment with chloroform to remove the excess iodides from the perovskite surface and demonstrated that the treatment is highly effective in suppressing the roll-off behavior. By combining the treatment and the use of an ultrathin poly(methyl methacrylate) (PMMA) interlayer, we achieved a high-brightness PeLED with an EQE(max) of 19.6%, a critical current density of 1550 mA cm(-2), and a radiance(max) of 875 W sr(-1) m(-2). The study reveals the double-edge sword effect of precursor nonstoichiometry and highlights the importance of managing excess ions in perovskite films.
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