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Simultaneous encapsulation and structural behavior of high-utility CsPbX3 quantum dots in 3D dendritic mesoporous silica nanospheresopen access

Authors
Muchlis, Andi Magattang GafurJiang, Cheng-LinLin, Zhe-YuNguyen, Hoang-DuyIm, Won BinLin, Chun Che
Issue Date
Jun-2025
Publisher
Elsevier
Keywords
Perovskite quantum dots; Mesoporous silica nanospheres; Thermal phase change; Fluorescent materials; Encapsulation
Citation
Materials Today Advances, v.26, pp 1 - 13
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
Materials Today Advances
Volume
26
Start Page
1
End Page
13
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/207828
DOI
10.1016/j.mtadv.2025.100593
ISSN
2590-0498
2590-0498
Abstract
Cesium lead halide (CsPbX3) perovskite quantum dots (PQDs) instability is solved by sealing them in 3D form double-layered mesoporous silica nanospheres (3D-MSNs) with uniform particle size. When compared to other commercial 2D mesoporous silica materials, 3D-MSNs can better encapsulate PQD precursors within their pores. After introducing CsX and PbX2 into 3D-MSN pores, calcination provides simultaneous production of CsPbX3 and coverage for outer-layer 3D-MSN pores, resulting in the formation of a water and light-resistant CsPbX3@3D-MSNs composite material. The growth mechanism of PQDs inside 3D-MSNs and their thermal phase structure behavior are deeply studied. Heating and cooling at 25-350 degrees C affects the crystal phase of PQDs (delta, alpha, beta, and gamma) and their photoluminescence properties. The CsPbX3@MSNs composite material exhibits high stability and dispersity, making it suitable for light-emitting diodes and stretchable, self-healable, luminescent thin films.
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