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Τίτλος Development of composite 2D material-glasses (MoS2 -glasses) for optoelectronics applications
Συγγραφέας Γωνιωτάκης, Χαράλαμπος
Μέλος κριτικής επιτροπής Στρατάκης, Εμμανουήλ
Κονιδάκης, Ιωάννης
Περίληψη Transition metal dichalcogenides (TMDs) are semiconductors consisting of a transition metal and two chalcogen atoms. They have a chemical type of MX2 where M is a transition metal and X a chalcogen atom. They are part of a larger group known as 2D materials named so to emphasize their extraordinary thickness, which is at the order of some Å. In their monolayer form, TMDs have a direct bandgap and this makes them ideal for their use in various applications in valleytronics, electronics (as transistors) and in optics (as photoemitters and detectors). Therefore, monolayer TMDs have received significant attention. Monolayer Molybdenum disulfide (MoS2) in particular, gains considerable attention due to its direct band gap and potential integration with other nanostructures to form nanoscale van der Waals heterojunctions with intriguing physical and optical properties. Indeed, several studies have been carried out for an attempt to enhance and control the optical properties of the monolayer (mostly) and few layers MoS2. For example, Catalan-Gomez et al. used MoS2 monolayers and Ga nanoparticles (NPs) in a attempt to enhance the photoluminescence (PL) of the 2D material, J.Yan et al. used few-layered MoS2 and Au NPs with the aim of controlling the PL of MoS2 by controlling the size and aggregation of the Au NPs in various spots, X. Zhang et al. used MoS2 monolayers and photonic crystals in an attempt to also enhance the PL of MoS2 and J. Huang et al. utilized silver nanotubes on monolayer MoS2 to control the A and B exciton emissions. A major breakthrough achieved by Abdus S. Sarkar et al. at ULMNP labs at FORTH, when they embedded few-layered MoS2 flakes into a sliver metaphosphate (AgPO3) glass matrix. Indeed, they achieved a remarkable enhancement of both A and B exciton emissions at room temperature. It has been also demonstrated by the same group at ULMNP the ability to create laser induced periodic surface structures (LIPSS) on a AgPO3 matrix. It is well known that the excitons in TMDs can interact with plasmonic profiles of metal NPs of various dimensionalities and this can increase the PL of a material. It is also known that when strain is applied on a material, I can change the internal band structure of that material and this has an effect on its optical properties. The aim of this project is to shed light on how the PL properties of few-layered MoS2 would change when a plasmon-exciton coupling is combined with a strain profile applied on the 2D material using LIPSS.
Γλώσσα Αγγλικά
Ημερομηνία έκδοσης 2022-04-01
Συλλογή   Σχολή/Τμήμα--Σχολή Θετικών και Τεχνολογικών Επιστημών--Τμήμα Φυσικής--Πτυχιακές εργασίες
  Τύπος Εργασίας--Πτυχιακές εργασίες
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