Developing microlasers from inorganic perovskite materials

Following the promising results of perovskite NCs due to its strong stability, quantum yield and luminescence, perovskite materials have attracted the attention of many optoelectronic researchers with aims to tap on the extrinsic properties of these nanosized semiconductors. Perovskite has progre...

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Bibliographic Details
Main Author: Quek, Jie Min
Other Authors: Sun Handong
Format: Final Year Project
Language:English
Published: 2018
Subjects:
Online Access:http://hdl.handle.net/10356/74133
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Institution: Nanyang Technological University
Language: English
Description
Summary:Following the promising results of perovskite NCs due to its strong stability, quantum yield and luminescence, perovskite materials have attracted the attention of many optoelectronic researchers with aims to tap on the extrinsic properties of these nanosized semiconductors. Perovskite has progressed so rapidly in such a short frame of time that they have already caught up with other photovoltaic devices which have been around since the 20th century. Here in this report, I have investigated the properties and characteristics of these NCs from their atomic level and what enables them to exhibit such favourable optical behaviours. I also demonstrated how caesium halide perovskite NCs, CsPbBr3 can be formed by various methods followed by how random lasing can be observed when they are coated on a piece of a silicon substrate. Towards the end, I gave a brief outlook of perovskite NCs which highlights on what are their current uses as well as what can we possibly expect from them for the near future. . . .