Efficient pure-red perovskite light-emitting diodes with strong passivation via ultrasmall-sized molecules

Citations Over TimeTop 1% of 2024 papers

Abstract

Perovskite light-emitting diodes (PeLEDs) have attracted great attention in recent years; however, the halogen vacancy defects in perovskite notably hamper the development of high-efficiency devices. Previously, large-sized passivation agents have been usually used, while the effect of defect passivation is limited due to the weak bonding or the large space steric hindrance. Here, we predict that the ultrasmall-sized formate (Fa) and acetate (Ac) have more efficient passivation ability because of the stronger binding with the perovskite, as demonstrated by density functional theory calculation. We introduce ultrasmall-sized cesium salts (CsFa/CsAc) into buried interface, which can also diffuse into the bulk, resulting in both buried interface and bulk passivation. In addition, the improved perovskite growth has been found due to the enhanced hydrophily after introducing CsFa/CsAc as additive. According to these advantages, a pure-red PeLED with 24.2% efficiency at 639 nm has been achieved.

Related Papers

• → Passivation and Surface Film Formation(1996)7 cited
• → Elimination of parasitic effects in floating junction rear surface passivation for solar cells(1996)17 cited
• → Sulfur passivation of 3C-SiC thin film(2018)4 cited
• Development of High Performance Chromium-Free Passivation Agent Suitable for Coating of Aluminum Alloy and Optimization of Passivation Technology(2012)
• Passivation method of 317L stainless steel used in medicine(2002)