Light-Emitting Diodes with Micrometer-Thick Perovskite Charge Transport Layers

TL;DR

This paper reviews recent advancements in perovskite-based LEDs, focusing on the use of micrometer-thick perovskite charge transport layers and discussing future development pathways.

Contribution

It provides a comprehensive overview of progress in perovskite charge transport layers in LEDs and proposes new directions for research and improvement.

Findings

Perovskite LEDs show high efficiency and long lifetime.

Micrometer-thick perovskite layers are promising for device performance.

Future pathways include optimizing layer thickness and material stability.

Abstract

Over the past few decades, thin-film optoelectronic devices have shown significant advancements. Light-emitting diodes (LEDs) based on organic materials, polymers, quantum dots, as well as metal halide perovskites have achieved remarkable efficiencies and long lifetimes, making them ideal for applications in full-color displays and solid-state lighting. These devices typically feature a layered structure, with the light-emitting layer positioned between charge transport layers and two electrodes. This perspective reviews recent progress in LEDs utilizing perovskite charge transport layers and suggests potential pathways for further development in this field.