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Cesium-Based Colloidal Halide Perovskite Nanocrystal: Stability and Lead-Free Design

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abstract
The advent of lead halide perovskite materials has led to a revolution in the focus of the material research scientific community over the past decade. Through these efforts, significant progress has been made in understanding the fundamental physical and chemical properties of halide perovskites. Nowadays, due to their extraordinary opto-electronic properties, halide perovskites such as methyl ammonium lead halide (MAPbX3) have been utilized for a variety of commercially relevant applications such as solar cells and light emitting diodes. Despite the potential for wide application in optoelectronic devices, there are two concerns for halide perovskite: stability and lead toxicity.
subject
CsPbBr3
CsPbI3
Halide Perovskite
Lead-free Perovskite
Stability
Water-resistance
contributor
Lu, Chang (author)
Geyer, Scott M (committee chair)
Gross, Michael D (committee member)
Ghadiri, Elham (committee member)
Jones, Paul B (committee member)
Salam, Akbar (committee member)
date
2019-09-05T08:35:21Z (accessioned)
2020-09-04T08:30:24Z (available)
2019 (issued)
degree
Chemistry (discipline)
embargo
2020-09-04 (terms)
identifier
http://hdl.handle.net/10339/94308 (uri)
language
en (iso)
publisher
Wake Forest University
title
Cesium-Based Colloidal Halide Perovskite Nanocrystal: Stability and Lead-Free Design
type
Dissertation

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