Defect Engineering of Metal Halide Perovskite Nanocrystals via Spontaneous Diffusion of Ag Nanocrystals

Perovskite nanocrystals (NCs) have emerged as a promising building block for the fabrication of optic‐/optoelectronic‐/electronic devices owing to their superior characteristics, such as high absorption coefficient, rapid ion mobilities, and tunable energy levels. However, their low structural stabi...

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Published in:Small (Weinheim an der Bergstrasse, Germany) Germany), 2024-06, Vol.20 (23), p.e2307032-n/a
Main Authors: Jeon, Sanghyun, Ahn, Junhyuk, Jung, Myung‐Chul, Woo, Ho Kun, Bang, Junsung, Jung, Byung Ku, Oh, Seongkeun, Lee, Sang Yeop, Lee, Kyu Joon, Paik, Taejong, Ha, Don‐Hyung, Ahn, Jae‐Pyoung, Jeong, Sohee, Kim, Dong Hoe, Noh, Jun Hong, Jang, Ho Seong, Han, Myung Joon, Oh, Soong Ju
Format: Article
Language:English
Subjects:
Absorptivity
all inorganic perovskite
cesium lead halide perovskite nanocrystal
Defects
Density functional theory
Drug delivery systems
drug‐delivery system
Energy levels
Healing
Light emitting diodes
Metal halides
Nanocrystals
Optical properties
Optoelectronic devices
perovskite healing
Perovskites
Recovery
silver nanocrystal
Structural engineering
Structural stability
Surface stability
White light
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Summary:Perovskite nanocrystals (NCs) have emerged as a promising building block for the fabrication of optic‐/optoelectronic‐/electronic devices owing to their superior characteristics, such as high absorption coefficient, rapid ion mobilities, and tunable energy levels. However, their low structural stability and poor surface passivation have restricted their application to next‐generation devices. Herein, a drug delivery system (DDS)‐inspired post‐treatment strategy is reported for improving their structural stability by doping of Ag into CsPbBr3 (CPB) perovskite NCs; delivery to damaged sites can promote their structural recovery slowly and uniformly, averting the permanent loss of their intrinsic characteristics. Ag NCs are designed through surface‐chemistry tuning and structural engineering to enable their circulation in CPB NC dispersions, followed by their delivery to the CPB NC surface, defect‐site recovery, and defect prevention. The perovskite‐structure healing process through the DDS‐type process (with Ag NCs as the drug) is analyzed by a combination of theoretical calculations (with density functional theory) and experimental analyses. The proposed DDS‐inspired healing strategy significantly enhances the optical properties and stability of perovskite NCs, enabling the fabrication of white light‐emitting diodes. This paper reports a drug delivery system (DDS)‐inspired strategy for healing structural defects in all‐inorganic lead halide perovskite nanocrystals (NCs) using Ag NCs with modified surface chemistry. The proposed strategy improves the optical properties and stability of perovskite NCs by defect‐healing, enabling the construction of high‐performance white light‐emitting diodes.
ISSN:1613-6810
1613-6829
DOI:10.1002/smll.202307032