Perovskit fotoışımasının plazmonik artırımı

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" Perovskit fotoışımasının plazmonik artırımı "
Tan, Metin Sarı, Emre

Document Type	:	Latin Dissertation
Language of Document	:	English
Record Number	:	1112227
Doc. No	:	TLpq2522826881
Main Entry	:	Sarı, Emre
	:	Tan, Metin
Title & Author	:	Perovskit fotoışımasının plazmonik artırımı\ Tan, MetinSarı, Emre
College	:	Izmir Institute of Technology (Turkey)
Date	:	2020
student score	:	2020
Degree	:	Master's
Page No	:	68
Abstract	:	Recently emerged perovskite materials show superior features like high efficiency, defect tolerance, facile synthesis, bandgap tunability and wide color gamut over their rivals in photonics applications. On the other hand, metals have interesting characteristics as they go smaller in size. Their absorption and scattering properties are completely different as nanoparticles. Their confined electron oscillations bring peculiar consequences. Due to change in these features, metallic nanoparticles can enhance or quench fields around them. Light-matter interactions determine how we see the world. Understanding quantum nature of light and matter and their interactions can benefit higher efficiencies and can open paths for novel technologies. In accordance with this purpose, this thesis study involves synthesis of cesium lead halide perovskite emitters and investigation of their interactions with silver nanoisland films. It was concluded that direct contact between perovskite layer and nanoislands results in a fluorescence quenching where intensity average lifetime decreases below 1 ns. Separating these layers with an alumina dielectric layer increased photoluminescence intensity after 15 nm and the highest intensity was observed at 18 nm thickness with 78% of PL enhancement. With different spacer thickness values, we achieved to see the change in photoluminescence intensity.
Subject	:	Glass substrates
	:	Investigations
	:	Metals
	:	Nanoparticles
	:	Plasma
	:	Silicon