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Preparation and characterization of perovskite solar cells
Juřík, Karel ; Salyk, Ota (referee) ; Pospíšil, Jan (advisor)
This work deals with the perovskite photovoltaic cells. The first part summarises the basic information about this technology and shows the most important milestones in its development. Following part includes the parameters required to characterise the electric properties of a photovoltaic cell and the assessment of its quality. The experimental part of this thesis aims to describe the influence of the annealing time of the perovskite active layer on the final efficiency of created solar cells. The best results were determined to be achieved with the annealing time of 90 minutes.
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Radiation damage of VVER-440 based Dukovany NPP reactor pressure vessel investigation
Říha, Tomáš ; Martinec, Jiří (referee) ; Šen, Hugo (advisor)
This master‘s thesis deals with radiation damage of reactor pressure vessels, specifically of NPP Dukovany Unit No. 3. In general damage mechanisms of reactor steels are described and possibilities of monitoring of material degradation and its recovery used at NPP’s all over the world are mentioned as well. A practical part of the thesis is focused on interpretation of analyses carried out with the assistance of MOBY DICK code. The ground of these analyses is a neutron fluence value development on different locations of RPV for the whole life of operation up to 24th cycle. The analyses results are put into context with performed in-service inspections. The thesis follows up with neutron fluence computation for the future cycles containing new types of nuclear fuel up to 34th cycle. The outcome of practical part of the master‘s thesis is a comparison between new types of nuclear fuel with respect to radiation damage of RPV’s.
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Organic tranistors for sensorics
Marková, Aneta ; Omasta, Lukáš (referee) ; Vala, Martin (advisor)
The aim was to find the best available commercial formulation of poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) (PEDOT:PSS) and methods and subsequent treatment of thin films for organic electrochemical transistors (OECT). These films will be used in bioelectronic sensors to measure the physiological function of cardiomyocytes. Studied material was PEDOT:PSS in six different formulations. Thin layers prepared by spin coating were modified in three ways, namely (i) immersion in ethylene glycol, (ii) drying and (iii) a combination of drying and ethylene glycol. The layers were then tested for the influence of ethylene glycol, thermal stability, the impact of storage, influence of aqueous medium, and additional thermal annealing. According to the results obtained, the most suitable treatment of most materials was immersion in ethylene glycol followed by thermal annealing of the layer. It was found that the most appropriate material formulation was Sigma Aldrich 739 316 treated by the combination of drying, immersion in ethylene glycol and thermal annealing.
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Preparation and characterization of perovskite solar cells
Juřík, Karel ; Salyk, Ota (referee) ; Pospíšil, Jan (advisor)
This work deals with the perovskite photovoltaic cells. The first part summarises the basic information about this technology and shows the most important milestones in its development. Following part includes the parameters required to characterise the electric properties of a photovoltaic cell and the assessment of its quality. The experimental part of this thesis aims to describe the influence of the annealing time of the perovskite active layer on the final efficiency of created solar cells. The best results were determined to be achieved with the annealing time of 90 minutes.
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Silver catalysed nanoscale silicon etching in water vapour
Křížek, Filip ; Pikna, Peter ; Fejfar, Antonín
N+-doped silicon substrates were etched by water vapour under the silver nanoparticles acting as a catalyst. Thin silver layer was deposited on two silicon wafers, where one of them was thermally annealed in nitrogen to create silver nanoparticles. Subsequently, both samples were annealed in water vapour and afterwards analysed by Scanning Electron Microscope. The images have shown that the annealed silver nanoparticles burrowed into the silicon substrate in the case of both samples. This new method of silicon etching introduces an alternative way of manufacturing nanohole arrays in silicon substrates.\n
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Organic tranistors for sensorics
Marková, Aneta ; Omasta, Lukáš (referee) ; Vala, Martin (advisor)
The aim was to find the best available commercial formulation of poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) (PEDOT:PSS) and methods and subsequent treatment of thin films for organic electrochemical transistors (OECT). These films will be used in bioelectronic sensors to measure the physiological function of cardiomyocytes. Studied material was PEDOT:PSS in six different formulations. Thin layers prepared by spin coating were modified in three ways, namely (i) immersion in ethylene glycol, (ii) drying and (iii) a combination of drying and ethylene glycol. The layers were then tested for the influence of ethylene glycol, thermal stability, the impact of storage, influence of aqueous medium, and additional thermal annealing. According to the results obtained, the most suitable treatment of most materials was immersion in ethylene glycol followed by thermal annealing of the layer. It was found that the most appropriate material formulation was Sigma Aldrich 739 316 treated by the combination of drying, immersion in ethylene glycol and thermal annealing.
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Radiation damage of VVER-440 based Dukovany NPP reactor pressure vessel investigation
Říha, Tomáš ; Martinec, Jiří (referee) ; Šen, Hugo (advisor)
This master‘s thesis deals with radiation damage of reactor pressure vessels, specifically of NPP Dukovany Unit No. 3. In general damage mechanisms of reactor steels are described and possibilities of monitoring of material degradation and its recovery used at NPP’s all over the world are mentioned as well. A practical part of the thesis is focused on interpretation of analyses carried out with the assistance of MOBY DICK code. The ground of these analyses is a neutron fluence value development on different locations of RPV for the whole life of operation up to 24th cycle. The analyses results are put into context with performed in-service inspections. The thesis follows up with neutron fluence computation for the future cycles containing new types of nuclear fuel up to 34th cycle. The outcome of practical part of the master‘s thesis is a comparison between new types of nuclear fuel with respect to radiation damage of RPV’s.
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