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Electrochemical reduction of dehydrocholic and chenodeoxycholic acid at stationary mercury and amalgam electrodes
Patáková, Adéla ; Schwarzová, Karolina (advisor) ; Vyskočil, Vlastimil (referee)
This thesis deals with the study of electrochemical behaviour of dehydrocholic and chenodeoxycholic acid at stationary mercury-based electrodes - hanging mercury dropping electrode and silver solid amalgam electrode modified by a mercury meniscus. This is the first study of electrochemical behaviour of dehydrocholic acid which offers tree peaks with potentials around -1270 mV, -1450 mV and -1800 mV. The last one with the potential -1800 mV is probably the main peak given by reduction of carboxylic group of side chain of steroid skeleton. By cyclic voltammetry was determined that the process is quasireversible and is strongly influenced by adsorption of DHCA on the electrode surface and also by the pH which determines dissociation degree of carboxylic group. In the environment of BR buffer (pH 7.0) - methanol (9:1) was measured concentration dependence by DC, DP and "square-wave" voltammetry. By neither one of these methods have been reached satisfying limits of detection and wide linear dynamic ranges. However, the repeatable signals in wide range of pH can be used for electrochemical characterization of DHCA. CDCA offers in environment 0,04 mol·l-1 borat buffer (pH 9.1) - methanol (9:1) one signal with potential around -1350 mV. Position of this peak on the potential axe and also its height are...
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Determination of carvacrol using HPLC with electrochemical detection
Mužíková, Jana ; Dejmková, Hana (advisor) ; Schwarzová, Karolina (referee)
This thesis deals with determination of a mixture of carvacrol with thymol and eugenol by HPLC with electrochemical detection. Carbon paste electrode was used as the working electrode. The separation was performed on Kromasil-C18, 250x4,6 mm column. For the comparison, UV spectrophotometric detection at 275 nm was used besides electrochemical detection. Optimal separation conditions were found: mobile phase consisting of acetonitrile and phosphate buffer in ratio 60:40, the optimal buffer pH was pH 4. As the optimum potential of working electrode during electrochemical detection, potential +1.1 V was found. Under the obtained optimal conditions, calibration dependences were measured. Limit of quantification for carvacrol was found to be 9,6·10-7 mol dm-3 using UV spectrophotometric detection and 4,0·10-8 mol dm-3 using electrochemical detection.
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Development and application of electrochemical flow-through detector with renewable working material
Mika, Jan ; Dejmková, Hana (advisor) ; Schwarzová, Karolina (referee) ; Metelka, Radovan (referee)
The aim of this thesis was development and initial testing of new porous electrochemical detector for flow-through arrangements, especially for flow injection analysis (FIA) and liquid chromatography. One of the most advantageous properties of the detector is simple renewal of working material and thus its suitability for determination of strongly passivating substances. Glassy carbon microbeads and copper microparticles were tested as a working material within this study. Initially, basic electrochemical properties of the glassy carbon-based detector were examined by FIA using hydroquinone and potassium ferrocyanide as model substances. For both model substances high degree of conversion was achieved (around 100 %), and thus it was concluded that glassy carbon-based detector can be considered as coulometric. Hereafter, practical application of the carbon-based detector are presented on five electrochemically active substances closely related to the human medicine and pharmacy - thymol, tyrosine, sulfamethizole and vanillylmandelic acid (VMA) simultaneously determinined with homovanillic acid (HVA). Complexity of instrumental arrangement of flow-through methods had been increasing consecutively up to the HPLC determination with gradient programme. It was proved that the carbon-based detector is...
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Porous Boron-Doped Diamond Electrodes: Characterisation and Application for Electroanalysis
Baluchová, Simona ; Schwarzová, Karolina (advisor) ; Navrátil, Tomáš (referee) ; Šelešovská, Renáta (referee)
This dissertation thesis presents newly developed electrode materials based on porous boron- doped diamond (BDDporous) and their potential applications in electroanalysis. Particularly, these novel BDDporous electrodes (twelve in total) were thoroughly electrochemically characterised and compared, and the ones with the most promising properties were selected to develop reliable voltammetric methods for detecting the neurotransmitter dopamine. Initially, the impact of selected fabrication parameters on the final properties and electrochemical behaviour of novel BDDporous electrodes was clarified; the following factors were specifically studied: (1) deposition template used, (2) boron-doping level, (3) growth time of the individual layers (i.e., porosity), (4) number of deposited layers (i.e., thickness), and (5) content of non-diamond (sp2 ) carbon impurities. Alterations in deposition conditions naturally resulted in BDDporous electrodes with diverse (i) structural and morphological features, which were investigated by scanning electron microscopy and Raman spectroscopy, and (ii) physical and electrochemical characteristics, examined by cyclic voltammetry. Besides, to assess the suitability of selected BDDporous electrodes for dopamine detection, other parameters, such as susceptibility to...
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Determination of creatinine using pulsed amperometry
Giampaglia, Dominika ; Dejmková, Hana (advisor) ; Schwarzová, Karolina (referee)
This diploma thesis deals with the determination of creatinine using a combination of flow injection analysis (FIA) or high-performance liquid chromatography (HPLC) with pulse amperometry, an electrochemical technique based on the application of potential pulses on a gold working electrode. The determination was performed in a basic environment of borate buffer with creatinine concentration of 1∙10-4 mol∙l-1 . The lenght of the cleaning and activation pulse was optimized as well as the pH of the running buffer. A cleaning pulse of +1.8 V was first applied to the electrode for 100 ms, then an activation potential of -0.5 V was applied for 150 ms and then a measuring potential of +0.2 V for 300 ms. The optimal pH was selected as pH=9,4. Methanol and acetonitrile were added to the borate buffer to test whether creatinine could be determined in presence of these organic solvents and whether flow injection analysis could be transformed into HPLC. Methanol in the system caused peak deformation, acetonitrile did not cause the peak deformation in the system, at higher contents the baseline was destabilized. Furthermore, the calibration dependence in the range of concentrations from 2.5∙10-4 mol∙l-1 to 5∙10-6 mol ∙ l-1 was measured using PAD in combination with FIA. At higher concentrations, peaks splitted....
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Study of surface modifications of boron doped diamond electrode for voltammetric detection of dopamine and serotonin
Eremina, Anna ; Schwarzová, Karolina (advisor) ; Dejmková, Hana (referee)
This diploma thesis deals withthe studyof electrochemical behaviorand detection of two structurally different neurotransmitters, dopamine (DA) and serotonin (5-HT), in solutions commonly used for neuron cultivation, namely Neurobasal (NB), NB with phenol red and in phosphate buffer (PB) of a pH close to the physiological value. An electrode based on boron-doped diamondwas used for the study, examiningtwo types of surfaces obtained after oxidation (O-BDD) and mechanical polishing (p-BDD). The results were obtained by two voltametric techniques,namely cyclic and differential pulse voltammetry.The studyrevealedthat DA oxidationis a quasi-reversible process,whereas 5-HT oxidizes irreversibly on O-BDD and p-BDD. Nevertheless, for both neurotransmitters their anodic oxidationonboth BDD surfaces is controlledby diffusion. Due to the passivation of the electrode surface by the oxidation products, anodic reactivation(Eact = +2400 mV, t = 30 s) was first testedto regenerate the O-BDD surface during DA and 5-HT measurements. There was no continuous decrease in DA peak currents on O-BDD and the measuredsignals were characterizedby high repeatabilityin all studiedmedia (sr (Ip) 1.1% in PB of pH 7.0, 1.7% in NB of pH 7.34, 0.9% in NB with phenol red of pH 7.48). In the case of 5-HT, the anodic reactivation was...
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The influence of the surface pretreatment of boron doped diamond electrodes on electrochemical oxidation of phenol and its derivatives
Hnízdilová, Lucie ; Schwarzová, Karolina (advisor) ; Nesměrák, Karel (referee)
The aim of this thesis is the study of electrochemical oxidation of para-substituted phenol derivates using cyclic voltammetry (CV) and ,,direct current" voltammetry (DCV) on boron-doped diamond electrode (BDD) and comparison with some analogous meta-substituted compounds. Among the studied substances were p-cresol, 4-methoxyphenol, 4-hydroxybenzoic acid, 3-(4-hydroxyphenyl)propionic acid, 4-nitrophenol, 4-chlorophenol and 3-(trifluoromethyl)phenol. The oxidation of the analytes was performed in an acidic (pH 2,0) and basic (pH 11,0) Britton-Robinson buffer on mechanically polished, oxidated and hydrogenated surfaces. Another subject of the thesis is to analyze the influence of different substituents, characterized by the Hammett constant, on the oxidation potential of selected phenols. They are oxidized at more positive redox potentials in acidic media, than in basic media, where they are dissociated. The oxidation on the polished and hydrogenated surfaces were similar, whereas were shifted to higher values on the oxidated surface. Further, the signal intensity decreased on the oxidated one, and the oxidation of phenols was not recognizable in basic media. The passivation of the electrode was less significant in pH 2,0 buffer. The best result of Hammett correlation was achieved on a polished and...
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Development of voltammetric methods for detection of cholesterol and its prekursor lathosterol
Bláhová, Eva ; Schwarzová, Karolina (advisor) ; Fischer, Jan (referee)
Cholesterol is an irreplaceable sterol found in animal cells, lathosterol is one of its precursors. The first aim of this Thesis is to develop a method for determining cholesterol after liquid- liquid extraction from milk matrices by differential pulse voltammetry on a boron doped diamond electrode in the presence of perchloric acid in acetonitrile where cholesterol provides an irreversible anodic response at the potential between +1300 and +1600 mV depending on the water content. The second aim is a study of the voltammetric behavior of lathosterol on boron doped diamond and glassy carbon electrodes using cyclic voltammetry and differential pulse voltammetry mainly in perchloric acid but also sodium perchlorate where lathosterol provides an irreversible anodic response at the potential of about +1650 mV on the boron doped diamond electrode and at the potential of +1350 mV on a glassy carbon electrode. The effect of other acids - sulfuric, nitric and phosphoric - on the response of lathosterol was also investigated. The influence of the water content in the measured solution and the influence of the polarization rate on the response of lathosterol were studied. Furthermore, the calibration dependence of lathosterol was measured using differential pulse voltammetry after optimization of its...
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Determination of amino acids on copper-based electrodes
Kohoutová, Nela ; Dejmková, Hana (advisor) ; Schwarzová, Karolina (referee)
In this Thesis, electrochemical behavior of the flow detector made of the thin copper wires was studied. This detector is suitable for the determination of amino acids without preliminary derivatization; in this case, tyrosine was used as the model compound. Suitable activation procedure for the copper electrode was found, which assured the stable baseline with lowest possible background current. It was also found that the optimum detection potential for tyrosine determination is 0.3 V. It was shown that the mass of the copper electrode does not influence the response of the electrode. Nevertheless, according to the comparison of the theoretical and found charge, the electrochemical reaction is not quantitative. Therefore, the electrode works in amperometric and not in coulometric mode. Finally, linearity of the current response in dependence on the tyrosine concentration was confirmed in the concentration range from 1.0·10-3 mol·dm-3 to 2.0·10-5 mol·dm-3 . Limit of detection was 1.5·10-5 mol·dm-3 and limit of quantification was 5.1 ·10-5 mol·dm-3 .
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