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" Electronic and Optical Properties of Two-Dimensional Transition Metal Dichalcogenides "
Voshell, Andrew Bodhi
Rana, Mukti
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Latin Dissertation
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| Language of Document
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English
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| Record Number
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1107740
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TLpq2455534539
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| Main Entry
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Rana, Mukti
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Voshell, Andrew Bodhi
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| Title & Author
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Electronic and Optical Properties of Two-Dimensional Transition Metal Dichalcogenides\ Voshell, Andrew BodhiRana, Mukti
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| College
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Delaware State University
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| Date
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2020
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| student score
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2020
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| Degree
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M.S.
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| Page No
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67
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| Abstract
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Two dimensional (2D) materials have become a very popular topic in the last 15 years since the original isolation of graphene, which kickstarted a new class of ultra-thin materials with unique properties. Since then, many other layered materials were reduced to monolayer or few-layers, showing much different properties than their bulk form. Of these materials, transition metal dichalcogenides (TMD’s) such as MoS2, WS2, and Mo1-xWxS2 have displayed different optical and electrical properties when reduced to a single layer, such as direct band gap transition compared to bulk indirect band gap. Furthermore, these materials show tunable qualities based on the thickness of the material, and are useful for optoelectronic devices. In this work, we investigated optical responses of monolayer MoS2, WS2, and Mo1-xWxS2 such as photoluminescence, absorption, and differential reflection, as well as thermal and substrate choice effects. The charge-transfer mechanics were investigated on germanium substrates and graphene/germanium heterostructures, in which we found a clear photoluminescence quenching effect of over 99% for WS2/graphene/Ge samples. The quenching mechanism of WS2 is clearly shown in germanium substrates, but has the potential to be useful in future optoelectronic systems that may require it.
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Applied physics
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Optics
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