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Fabrication and characterization of two-dimensional heterostructures
Majerová, Irena ; Švec, Martin (referee) ; Procházka, Pavel (advisor)
After the experimental discovery of graphene at the beginning of the 21st century, many other interesting 2D materials have been discovered. However, the electrical and optical properties of these layers are greatly influenced by the composition and quality of the surrounding materials. In order to preserve the exceptional properties of thin films, attention has gradually been drawn to heterostructures from 2D composite materials. This thesis describes the preparation and characterization of heterostructures composed of graphene and hexagonal boron nitride. In addition, a specific focus will be placed on optimizing the production process of heterostructures by the dry thin film transfer process, prepared by micromechanical exfoliation. Characterization and quality of prepared layers are controlled by Raman spectroscopy, while morphology is examined by atomic force microscope (AFM). Furthermore, the electrical properties of the graphene-hBN device are discussed and the charge carrier of the graphene field-effect transistor is measured.
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Scanning Near-field Optical Microscopy (SNOM)
Majerová, Irena ; Kvapil, Michal (referee) ; Dvořák, Petr (advisor)
A study of the optical properties of 2D materials has recently been the focus of the broad scientific community for its possible applications in nanophotonics and plasmonics. This bachelor thesis deals with the detection of photoluminiscence (PL) of 2D material (MoS2) by means of near-field scanning optical microscopy (SNOM). This PL is excited in the far-field by means of a focused green laser and in the near-field by surface plasmon polariton (SPP) interference. MoS2 flake monolayers are prepared using micromechanical exfoliation on various functional substrates (metal and dielectric). Characterization and quality of MoS2 monolayers is controlled using Raman optical spectroscopy. Furthermore, the experimentally obtained optical spectra of PL MoS2 are compared in a far-field using confocal optical microscopy and in the near-field using SNOM device, where in the near-field is observed a 3 times higher intensity PL of this 2D material than in the far-field
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Fabrication and characterization of two-dimensional heterostructures
Majerová, Irena ; Švec, Martin (referee) ; Procházka, Pavel (advisor)
After the experimental discovery of graphene at the beginning of the 21st century, many other interesting 2D materials have been discovered. However, the electrical and optical properties of these layers are greatly influenced by the composition and quality of the surrounding materials. In order to preserve the exceptional properties of thin films, attention has gradually been drawn to heterostructures from 2D composite materials. This thesis describes the preparation and characterization of heterostructures composed of graphene and hexagonal boron nitride. In addition, a specific focus will be placed on optimizing the production process of heterostructures by the dry thin film transfer process, prepared by micromechanical exfoliation. Characterization and quality of prepared layers are controlled by Raman spectroscopy, while morphology is examined by atomic force microscope (AFM). Furthermore, the electrical properties of the graphene-hBN device are discussed and the charge carrier of the graphene field-effect transistor is measured.
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Scanning Near-field Optical Microscopy (SNOM)
Majerová, Irena ; Kvapil, Michal (referee) ; Dvořák, Petr (advisor)
A study of the optical properties of 2D materials has recently been the focus of the broad scientific community for its possible applications in nanophotonics and plasmonics. This bachelor thesis deals with the detection of photoluminiscence (PL) of 2D material (MoS2) by means of near-field scanning optical microscopy (SNOM). This PL is excited in the far-field by means of a focused green laser and in the near-field by surface plasmon polariton (SPP) interference. MoS2 flake monolayers are prepared using micromechanical exfoliation on various functional substrates (metal and dielectric). Characterization and quality of MoS2 monolayers is controlled using Raman optical spectroscopy. Furthermore, the experimentally obtained optical spectra of PL MoS2 are compared in a far-field using confocal optical microscopy and in the near-field using SNOM device, where in the near-field is observed a 3 times higher intensity PL of this 2D material than in the far-field
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