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Design of the carbon atomic source for deposition of graphene in UHV
Čalkovský, Vojtěch ; Bábor, Petr (referee) ; Mach, Jindřich (advisor)
This bachelor's thesis deals with the design of the atomic carbon source for deposition of graphene layers in UHV conditions. In the first part are briefly described the problems of epitaxial growth, the theory of atomic beams and theory of sublimation. The second part is aimed on graphene description, namely on his properties and on the growth of graphene layers, especially by molecular beam epitaxy. The third part contains brief description of detection and analysis methods of carbon atomic beams. In the practical part of this bachelor's thesis the design and the numeric calculations were made in Simion 8.0 and EOD program. Afterwards the atomic carbon source was constructed. In the conclusion are discussed the obtained results.
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Low temperature scanning tunneling microscopy
Sojka, Antonín ; Havlíček,, Marek (referee) ; Pavera, Michal (advisor)
The diploma thesis is divided into two main parts. The first part describes the production of chrome and cobalt tips for SP-STM with subsequent testing of chrome tips on the Fe-Ir system (111). Furthermore, the first results from the growth studies of niobium on iridium(111) are presented. In the second part is described in detail the experimental LT-STM microscope of the Faculty of Physical Engineering. The chapter deals with the development of the microscope and its testing on a HOPG sample under atmospheric and vacuum conditions. The chapter describes the biggest problems which were solved when the microscope was puting into operation state. The second part also introduces the design of a new vacuum transport system, which consists of a tip and sample transport pallet. At the end of the second part is described the testing of cooling systems for LT-STM and the design of their modifications.
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Low temperature scanning tunneling microscopy
Sojka, Antonín ; Havlíček,, Marek (referee) ; Pavera, Michal (advisor)
The diploma thesis is divided into two main parts. The first part describes the production of chrome and cobalt tips for SP-STM with subsequent testing of chrome tips on the Fe-Ir system (111). Furthermore, the first results from the growth studies of niobium on iridium(111) are presented. In the second part is described in detail the experimental LT-STM microscope of the Faculty of Physical Engineering. The chapter deals with the development of the microscope and its testing on a HOPG sample under atmospheric and vacuum conditions. The chapter describes the biggest problems which were solved when the microscope was puting into operation state. The second part also introduces the design of a new vacuum transport system, which consists of a tip and sample transport pallet. At the end of the second part is described the testing of cooling systems for LT-STM and the design of their modifications.
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Design of the carbon atomic source for deposition of graphene in UHV
Čalkovský, Vojtěch ; Bábor, Petr (referee) ; Mach, Jindřich (advisor)
This bachelor's thesis deals with the design of the atomic carbon source for deposition of graphene layers in UHV conditions. In the first part are briefly described the problems of epitaxial growth, the theory of atomic beams and theory of sublimation. The second part is aimed on graphene description, namely on his properties and on the growth of graphene layers, especially by molecular beam epitaxy. The third part contains brief description of detection and analysis methods of carbon atomic beams. In the practical part of this bachelor's thesis the design and the numeric calculations were made in Simion 8.0 and EOD program. Afterwards the atomic carbon source was constructed. In the conclusion are discussed the obtained results.
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Field emission from the surface of highly ordered pyrolytic graphite
Knápek, Alexandr ; Pokorná, Zuzana
This paper deals with the electrical characterization of highly ordered pyrolytic graphite (HOPG) surface based on field emission of electrons. The effect of field emission, occurs only at disrupted surface, i.e. surface containing ripped and warped shreds of the uppermost layers of graphite. These deformations provide the necessary field gradients which are required for measuring tunneling current caused by field electron emission. Results of the field emission measurements are correlated with other surface\ncharacterization methods such as scanning near-field optical microscopy (SNOM) or atomic force microscopy. A simple method utilizing the field emission of electrons has been devised to characterize the sample surface. Electron and probe microscopies were used to determine the structure of both the bulk sample and the partially exfoliated shreds of the uppermost layers of graphite in locations where field emission is observed.
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Poly(Methylene Blue) Modified Carbon-based Electrodes for Electrochemical Detection of Hydrogen Sulfide
Zlámalová, Magda ; Janda, Pavel ; Nesměrák, K.
A comparative electrochemical study has been carried out of the electropolymerization of phenothiazine derivative, methylene blue (MB). Electrochemical properties of resulting electrocatalytically active methylene blue polymer (pMB) have been studied on three various carbon-based substrates: basal plane of highly oriented pyrolytic graphite (HOPG), pencil-graphite electrode (PGE) and carbon fibre micro electrode (CFE). Electrodes modified with the polymer (HOPG/pMB, PGE/pMB and CFE/pMB) have been prepared by potential cycling in aqueous electrolyte solution containing dissolved monomeric methylene blue. Electrocatalytic activity of three developed electrode systems towards hydrogen sulphide has been compared. Developed electrodes have been further investigated as potential sensors for sulfhydryl-containing compounds.
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New electrochemical cell for studies of phthalocyanines
Hudská, V. ; Janda, Pavel ; Nesměrák, K.
We have developed a new type of electrochemical cell for electrochemical studies of phthalocyanines. The cell employs a HOPG as a working electrode covered by a thin layer of dichlorobenzene with dissolved phthalocyanine. The layer of dichlorobenzene solution is overlaid by aqueous supporting electrolyte solution where the reference and counter microelectrodes are immersed.
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