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Fabrication of Nanowires into Porous Alumina by Electrolysis
Staňo, Michal ; Čechal, Jan (referee) ; Škoda, David (advisor)
This thesis deals with preparation of metal nanowires based on electrodeposition from aqua solution of metallic salts into porous dielectric aluminium oxide templates. The theoretical part covers various bottom-up methods of nanowire preparation using a template, electrochemistry and electrodeposition overview. The Experimental part is focused on the nanowire (Ag, Cu, Ni-H) preparation by means of direct current and alternating current electrodepositon and geometrical characterization of fabricated nanowires by scanning electron and atomic force microscopy. Defects of commercially available and prepared porous alumina templates are mentioned. Branching and coalescence of nanowires are briefly discussed as well.
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Low temperature fuel cells
Skibik, Petr ; Barath, Peter (referee) ; Sedlaříková, Marie (advisor)
This work deals with making of catalyst materials with used nickel and commercial carbons that is appropriate for using in low temperature H2-O2 fuel cell. This thesis is described the methods of preparation electrode materials, its consistence and making electrode for the measure. This thesis is compared catalyst activity of nickel materials with platinum materials and poor commercial carbons. The samples were measured by voltammetric method by potentiostat Autolab with used the software GPES and the software FRA for impedance spectroscopy.
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Characterization of electronic properties of nanowires for electrochemistry
Kovařík, Martin ; Čech, Vladimír (referee) ; Kolíbal, Miroslav (advisor)
Elektrochemické metody nacházejí využití v mnoha aplikacích (např. senzorice, skladování el. energie nebo katalýze). Jejich nespornou výhodou je nízká finanční náročnost na přístrojové vybavení. Abychom lépe porozuměli procesům probíhajícím na elektrodách, je dobré znát elektronickou pásovou strukturu materiálu elektrody. Úkolem této práce je vyhodnotit výstupní práci a pozici hrany valenčního pásu nových materiálů pro elektrody, konkrétně cínem dopovaného oxidu india pokrytého nanotrubicemi sulfidu wolframičitého. Ultrafialová fotoelektronová spektroskopie a Kelvinova silová mikroskopie jsou metody použité pro tuto analýzu. Zvláštní důraz je kladen na přípravu vzorků elektrod pro měření, aby nedošlo k nesprávné interpretaci výsledků vlivem vnějších efektů jako je např. kontaminace nebo modifikace povrchu.
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Preparation of electrodes of Li-S batteries using inversely vulcanized sulfur
Trochta, David ; Kunický, Daniel (referee) ; Čech, Ondřej (advisor)
This work focuses on research of lithium-sulfur batteries, which are a promising battery type due to their theoretically high capacity and low environmental impact. Steering away from the commonly used elementary sulfur as the electroactive material of the cathode, inversely vulcanized sulfur with amorphic structure was utilized instead, while the manufacturing process of which was improved and optimized during the research. A series of samples of inversely vulcanized sulfur was synthesised, each containing a different ratio of the input precursors. X-ray diffraction was used to verify the amorphic structure of the material, which simultaneously also ruled out the presence of crystalline sulfur. Additionally, this work presents the results of Raman spectroscopy. At the same time, the possibility of utilization of Raman spectroscopy to identify the exact quantitative ratios of the used precursors was presented for the first time. Specific samples were also handpicked to undertake a dissolution test involving procedural solvents. Electrodes for electrochemical cells (Li-S battery) were manufactured based upon the knowledge gathered. The distribution homogeneity of the electroactive material of the electrode was observed through creation of an elemental map using the EDS technique. Electrochemical characterization of the selected inversely vulcanized sulfur electrode samples was measured using various methods: cyclical voltammetry, electrochemical impedance spectroscopy and galvanostatic cycling with potential limitation.
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Advanced plasmonic materials for metasurfaces and photochemistry
Ligmajer, Filip ; Vala,, Milan (referee) ; Bauch, Martin (referee) ; Šikola, Tomáš (advisor)
Plazmonika, tedy vědní obor zabývající se interakcí světla s kovovými materiály, nabízí ve spojení s nanotechnologiemi nezvyklé možnosti, jak světlo ovládat a využívat. Výsledkem tohoto spojení může být například zaostřování světla pod difrakční limit, zesilování emise nebo absorbce kvantových zářičů, či extrémně citlivá detekce molekul. Tato práce se zabývá zejména možnostmi využití plazmoniky pro vývoj plošných optických prvků, tzv. metapovrchů, a pro fotokatalytické aplikace založené na plazmonicky generovaných elektronech s vysokou energií, tzv. horkých elektronech. Nejprve jsou vysvětleny teoretické základy plazmoniky a je poskytnut přehled jejích nejvýznamnějších aplikací. Poté jsou představeny tři studie zabývající se využitím plazmonických nanostruktur pro ovládání fáze a polarizace světla, pro vytváření dynamicky laditelných metapovrchů, a pro foto-elektrochemii s horkými elektrony. Společným prvkem těchto studií je pak používání pokročilých, resp. v rámci těchto oblastí netradičních, materiálů, jako např. oxidu vanadičitého nebo dichalkogenidů přechodných kovů.
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Preparation Techniques and Characterization of Electrodes with Nanostructured Surface
Hrdý, Radim ; Trnková, Libuše (referee) ; Janderka,, Pavel (referee) ; Hubálek, Jaromír (advisor)
Nowadays, nanostructures fixed on solid substrates and colloidal nanoparticles permeate through all areas of human life, in area of sensors and detection as well. This dissertation thesis deals with the fabrication of nanostructures on the surface of planar electrodes via self-ordered nanoporous template of aluminum trioxide. The nanofabrication, as one of many possible techniques, is used to increase the active surface area of electrodes by creating unique surface types with specific properties. These electrodes are very perspective in the applications, such as biomolecules electrochemical detection and measurement. The transformation of aluminum layer into non-conductive nanoporous template in the process of anodic oxidation is a fundamental technique employed to obtain the array of nanostructures in this thesis. The fabrication of high quality nanoporous membranes with narrow pore size distribution on various types of metallic multilayers is one of the key experimental parts in this work. Several problems associated with the production of the thin-film systems, including the dissolving the barrier oxide layer, are discussed and solved. Another part of this work deals with the use of nanoporous membrane as a template for the production of metallic nanostructures via electrochemical metal ions deposition directly into the pores. The obtained nanostructures as nanowires, nanorods or nanodots are characterized by the scanning electron microscopy and energy-dispersive or wavelength X-ray spectroscopy. The electrode surface, modified by gold nanostructures suitable for the detection of biomolecules, has been chosen for the electrochemical measurements, due to the gold biocompatibility. The nanostructured electrodes were characterized by electrochemical impedance spectroscopy and cyclic voltammetry. The effect of nanostructured surface geometrical parameters, including the size of the electrochemically active area, on the results of electrochemical measurements has been observed and compared to flat gold electrodes. Two model biomolecules, namely guanine and glutathione, have been chosen for the study of potential application of these nanostructures in biosensors.
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The electrochemical sensors with 3-D structure of electrodes
Štekovič, Michal ; Hrdý, Radim (referee) ; Adámek, Martin (advisor)
Miniature electrochemical sensors can be produced by thick-film technology. The optimal properties of thick-film electrode system, the production technology optimization of thick-film sensors and the adjustment of optimal technological properties are main problems of sensor design. An area of working electrode and an electrode topology design is the important parts in design of electrode system optimization. The rules for optimization of electrode systems in classical electrochemistry exist. The design of standard thick-film electrode construction is limited (2-D construction, substrate dimensions, resolution, paste parameters …). Therefore rules for classical electrode systems cannot be used fully in this case and larger electrode area can be making by 3D structure only. One of resolutions is unconventional method. The increase of working electrode surface by unconventional method – ball and wire bonding is discussed in this work.
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Study of MnOx properties using RRDE
Podal, Pavel ; Vondrák, Jiří (referee) ; Novák, Vítězslav (advisor)
This master thesis deals with qualifications of the catalytic materials for positive electrode low-temperature fuel cells. The teoretical part focuses on the physical and chemical properties of low-temperature fuel cells. There are described methods of hydrodynamic RDE and RRDE. RRDE study utilizes methods linear and cyclic voltammetry for qualifying performance of catalytic materials and presentation of results. The practical part describes the preparation various types of carbon materials. There are monitored the oxygen reduction using RRDE. Catalytic materials are evaluated: CV, stability, kinetic parameters, creation of intermediate H2O2 and kinetics of electrode reactions.
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The lead detection in solders
Macháň, Ladislav ; Prášek, Jan (referee) ; Adámek, Martin (advisor)
This work deals with issues of lead detection in solder irons used in electrotechnics. The general aim is to study principles of quantitative heavy metal detection by the electrochemical methods, optimal method selection and construction of detecting instrument.
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Electrochemical detection of purine bases using thick film Cu2O electrodes
Gabriel, Petr ; Prášek, Jan (referee) ; Pekárková, Jana (advisor)
This work deals with the production process thick films electrodes. It is focused on the Cu2O working electrodes preparation by screen printing and spray coating - methods on the corundum substrate. In this work are described both methods of fabrication and basic electrochemical methods. Prepared Cu2O electrodes were used for electrochemical detection of purine bases (adenine, guanine) using cyclic voltammetry. The effect of pH on the detection of purines was also examines.
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