Structure-property relationships of dyes as applied to dye-sensitized solar cells

Gong, Yun

January 2018

This work investigates the correlation of structural and photovoltaic properties of dyes used in dye-sensitized solar cells. Experimental methods, including ultraviolet-visible spectroscopy, fluorescence spectroscopy, cyclic voltammetry and electrochemical impedance spectroscopy are employed to study optical and electrochemical properties of dye molecules. Computational methods, including density functional theory and time-dependent density functional theory, are used to validate and predict the optical and electronic properties of dye molecules, in their isolated state and once embedded into a working electrode device environment that comprises a dye...TiO2 interface. The results chapters begin with the presentation of a series of quinodimethene dyes that are experimentally validated for their photovoltaic application, and associated computational studies reveal that an inner structural factor - a phenyl ring rotation occurring during the optical excitation process - leads to the competitive photovoltaic device performance of these dyes. Carbazole-based dyes are then systematically studied by computation, especially considering charge transfer paths and binding modes of these dyes on a titania surface. The theoretical models for the basic building block of this chemical family of dyes, known as MK-44, successfully support and explain structural discoveries from X-ray diffraction and reflectometry that impact of their function. A benzothiadiazole-based dye, RK-1, is then systematically studied by both experimental and computational methods, and the results show that the π-bridge composed of thiophene, benzothiadiazole and benzene rings leads to excellent charge separation; and the rotation of these rings during the optical excitation process may well be consistent with the fluorescence spectrum. Finally, the well-known ruthenium-based dyes are theoretically studied to determine the properties of different ligands connected to the metal core of the complex. Conformations with different NCS ligands are calculated in terms of energy and explain well the corresponding results from X-ray diffraction. Acid-base properties of carboxyl groups connected to pyridine ligands in N3 and N749 are theoretically calculated based on thermodynamics and density functional theory. Implicit and explicit models are both adopted to predict these acid dissociative constant values, which are generally in a good agreement with the reported experimental data. The thesis concludes with conclusions and a future outlook.

Estudos de mecanismos redox enzimáticos por eletroquímica e modelagem computacional / Studies of enzymatic redox mechanisms by electrochemistry and computational modeling

Callera, Welder Franzini Amaral [UNESP]

04 August 2017

Submitted by WELDER FRANZINI AMARAL CALLERA null (weldercallera@hotmail.com) on 2017-08-28T21:25:00Z No. of bitstreams: 1 TESE - Welder F A Callera OK.pdf: 2324966 bytes, checksum: 979c488a0e341117b537d2d5a1ec77b2 (MD5) / Rejected by Luiz Galeffi (luizgaleffi@gmail.com), reason: Solicitamos que realize uma nova submissão seguindo a orientação abaixo: O arquivo submetido está sem a ficha catalográfica. A versão submetida por você é considerada a versão final da dissertação/tese, portanto não poderá ocorrer qualquer alteração em seu conteúdo após a aprovação. Corrija esta informação e realize uma nova submissão contendo o arquivo correto. Agradecemos a compreensão. on 2017-08-29T18:03:23Z (GMT) / Submitted by WELDER FRANZINI AMARAL CALLERA null (weldercallera@hotmail.com) on 2017-08-29T18:41:29Z No. of bitstreams: 1 TESE - Welder F A Callera OK.pdf: 2349810 bytes, checksum: 0b00e94e2ccb5b74f2521ba559748736 (MD5) / Approved for entry into archive by Luiz Galeffi (luizgaleffi@gmail.com) on 2017-08-29T18:53:53Z (GMT) No. of bitstreams: 1 callera_wfa_dr_araiq.pdf: 2349810 bytes, checksum: 0b00e94e2ccb5b74f2521ba559748736 (MD5) / Made available in DSpace on 2017-08-29T18:53:53Z (GMT). No. of bitstreams: 1 callera_wfa_dr_araiq.pdf: 2349810 bytes, checksum: 0b00e94e2ccb5b74f2521ba559748736 (MD5) Previous issue date: 2017-08-04 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Esta tese de doutoramento apresentou o entendimento de processos redox enzimáticos, detalhando o mecanismo envolvido na troca eletrônica, a qual resulta na formação de um produto, por catálise enzimática. Observou-se a influência de um eletrodo sob a ação de um potencial estacionário aplicado (E) na reação enzima/substrato. Realizou-se eletroanálises, como: Voltametria Cíclica (VC) e Espectroscopia de Impedância Eletroquímica (EIE), para a penicilinase. Os resultados obtidos dão indícios de que a reação enzimática se beneficia de determinados potenciais, pois o parâmetro utilizado, Rct, resistência à transferência de cargas, sugere que ocorre maior troca eletrônica em alguns potenciais ótimos (faixa de -0,3 a -0,5 V). A Simulação Molecular serviu para estudar o comportamento atomístico por métodos clássicos (Dinâmica Molecular – DM) para as condições impostas experimentalmente, esclarecendo o mecanismo de reação enzimática por métodos quânticos (DFT – Teoria do Funcional de Densidade) e híbridos (QM/MM), cabendo salientar que a penicilinase não pertence à classe das enzimas oxirredutivas. / This doctoral thesis presented the understanding of enzymatic redox processes, detailing the mechanism involved in the electronic exchange, which results in the formation of a product by enzymatic catalysis. The influence of an electrode under the action of an applied stationary potential (E) on the enzyme/substrate reaction was observed. Electroanalysis was performed, such as: Cyclic Voltammetry (VC) and Electrochemical Impedance Spectroscopy (EIS), for the penicilinase. The results obtained indicate that the enzymatic reaction benefits from certain potentials, since the parameter used, Rct, resistance to the transfer of charges, suggests that there is greater electronic exchange in some optimal potentials (range the -0.3 to -0.5 V). The Molecular Simulation was used to study the atomistic behavior by classical methods (Molecular Dynamics - DM) for experimentally imposed conditions, clarifying the mechanism of enzymatic reaction by quantum methods (DFT) and hybrids (QM/MM). That penicillinase does not belong to the class of oxidoreductive enzymes.

Enzimas redox

Voltametria Cíclica (VC)

Dinâmica Molecular (DM)

Teoria do Funcional de Densidade (DFT)

Métodos Híbridos (QM/MM)

Penicilinase

Redox enzymes

Cyclic Voltammetry (CV)

Molecular Dynamics (MD)

Density Functional Theory (DFT)

Hybrid Methods (QM/MM)

Penicillinase

Développement de méthodes électroanalytiques hybrides pour l'étude de la biotransformation des médicaments / Development of hybrid electroanalytical methods devoted to drug biotransformation prediction

Blankert, Bertrand

18 April 2006

Le thème principal de notre travail consistait en la mise en exergue de l'efficience de la mise en œuvre de techniques hybrides associant l’électrochimie à l’élément biologique (biocapteur) ou l’électrochimie aux performances de la spectrométrie de masse (couplage EC-MS). Les informations fournies, jointes aux résultats des mesures en voltampérométrie sur électrodes solides, permettent une bonne compréhension mécanistique quant au devenir oxydatif de substances médicamenteuses. <p>Notre champ d'investigation s'est plus spécifiquement focalisé sur deux familles de molécules psychotropes (les phénothiazines, et une dibenzoazépine). Celles-ci connaissent un usage thérapeutique intensif et un regain d’intérêt pour des applications nouvelles, mais leur utilisation optimale souffre de l’existence d'effets secondaires physiopathologiques importants et dont l’étiologie est encore mal connue. <p>En premier lieu, les résultats de la voltampérométrie cyclique et les différentes modulations en ligne d'une cellule électrochimique couplée à la détection par spectrométrie de masse, nous ont permis de mettre en évidence des différences essentielles dans le devenir des phénothiazines quant aux produits d'oxydations générés. Plus précisément, un comportement clairement distinct entre les phénothiazines garnies de deux (2C) ou trois carbones (3C) entre les deux azotes au niveau de leur chaîne latérale a pu être mis en évidence. Les phénothiazines 3C s'oxydent de manière classique en leur sulfoxyde correspondant. Par contre, les phenothiazines 2C, conjointement à la formation de leur sulfoxyde, souffrent dans des conditions énergiques d’oxydation (persulfate, potentiel élevé) d'une rupture de la chaîne latérale et libèrent la phénothiazine base aisément oxydable et donc subissant elle-même une oxydation. Au vu des structures moléculaires en trois dimensions, nous émettons l’hypothèse que volume trop important de la chaîne latérale des phénothiazines 2C empêcherait le déploiement aisé des structures aromatiques en un radical cation coplanaire lors du phénomène d'oxydation. Les tensions intrastructurelles apparues conduiraient au bris de la chaîne latérale. Différents modes d'oxydation (chimique, électrochimique, enzymatique) ont été utilisés et laissent chacun apparaître la dépendance directe entre la puissance de l'agent oxydant appliqué et les produits d'oxydation obtenus. Chaque technique de détection, de manière individuelle, a bien confirmé la dualité entre les deux groupes de molécules. La mise en commun des divers résultats nous a permis l'identification irrévocable des espèces intermédiaires instables et des composés finaux. Par corollaire, nous avons pu postuler un schéma général d'oxydation pour les dérivés phénothiaziniques. Il nous paraît intéressant de transposer nos résultats aux biotransformations des phénothiazines car les produits identifiés ne possèdent pas l'activité pharmacologique du composé parent mais présentent un profil toxicologique bien répertorié dans la littérature. Nos résultats suggèrent d’approfondir les études de biotransformation afin de déterminer si ‘l’éclatement’ oxydatif des phénothiazines 2C est également observé in vivo. Une relation cause/effet de ces métabolites pourrait ainsi être établie. <p>En deuxième point, au travers de l'association CE/SM ou CE/CL/SM, nous avons étudié l’électroxydation de la clozapine. La génération et l'identification des principaux métabolites de phases I et II, illustre un mimétisme certain avec le CYP450, et nous a permis de confirmer de nombreuses données de la littérature quant à l'oxydation in vivo et in vitro de la clozapine. L'oxydation électrochimique ne génère cependant pas l'ensemble des réactions de métabolisation prises en charge par le système CYP450. Lors de la combinaison CE/SM, par l'absence de séparation chromatographique dans cette configuration, le spectre de masse présente un pic correspondant à un intermédiaire à demi-vie courte, difficilement et rarement mis en évidence: l'ion nitrénium. Cette espèce hautement réactive envers les fonctions thiols des petites molécules et des protéines, se trouve très régulièrement tenue pour responsable majeur de la toxicité avérée de la clozapine. <p>L'apparition plus abondante de dérivés déméthylés démontre l'influence du potentiel appliqué à l'électrode de travail lors de l'oxydation électrochimique. En effet, les processus de déméthylation nécessitent des potentiels élevés pour être observés. En présence de glutathion, aux différents pics antérieurement identifiés, des pics supplémentaires relatifs à la formation d'adduits de GSH sur la CLZ apparaissent. Les courbes voltampérométriques réalisées sur la clozapine suggèrent la distinctement la formation de l'ion nitrénium et d'une nouvelle espèce aisément électroréduite, probablement une structure quinone imine. L'addition de GSH provoque la disparition des pics de réduction de la CLZ. Ces comportements en VC corroborent les interprétations issues des mesures par couplage EC/CL/SM. <p>La dernière partie de notre travail a consisté en la construction d'un biocapteur à pâte de carbone solide avec inclusion au sein de cette matrice de peroxydase de raifort. Basé sur la capacité reconnue de l'HRP à reproduire in vitro des produits d'oxydation similaires à la métabolisation in vivo, nous avons exploité un tel biocapteur pour l'analyse de la clozapine et de composés thiols. Une compréhension fine du mécanisme opérationnel intrinsèque du biocapteur a pu être suggérée. La génération à la surface de l'électrode de l'ion nitrénium par oxydation enzymatique de la clozapine par l'HRP, suivie de sa réduction immédiate fournit un courant ampérométrique substantiel. Sous des conditions de pH optimales, ce courant de réduction autorise la détermination quantitative de la clozapine dans un domaine de linéarité compris entre 1 x 10-5 M et 1 x 10-6 M. L'addition de composés thiols dans le milieu occasionne une chute de courant par action de ceux-ci sur la structure radical cation ou nitrénium par addition nucléophile. La disparition de l'ion nitrénium et la formation d'un adduit GSH-CLZ inhibent tout processus de réduction à l'électrode du biocapteur. Cette diminution de courant proportionnelle aux concentrations en thiols introduits, permet la détermination quantitative de dérivés thiols. Les courbes de calibration exprimées en pourcentage d'inhibition conduisent facilement à l'évaluation de la constante d'inhibition (Ki) et de CI50. L'étude de la réponse ampérométrique de la clozapine à l'EPC/HRP en l'absence ou présence d'un dérivé thiol envisagé permet la détermination de Km et de caractériser le type d'inhibition qui entre en jeu. De tels paramètres cinétiques nous ont habilités à classer les thiols considérés en fonction de leur puissance réactionnelle envers les substances oxydées de la clozapine.<p><p>Au terme de ce travail, nous espérons avoir illustré, par l’étude de quelques molécules modèles, l’intérêt de la mise en œuvre des techniques électrochimiques couplées à l’élément biologique ou à la spectrométrie de masse. Des améliorations au niveau de la cellule électrochimique sont envisageables par l’emploi d’électrodes modifiées, elles laissent entrevoir la possibilité de mimer totalement le système CYP450.<p>Les résultats fournis par ces techniques hybrides et par voltampérométrie cyclique sont complémentaires, ils procurent un éventail d'informations d'une utilité estimable pour une application dans des études prédictives précoces de candidats médicament. / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished

Sciences pharmaceutiques

Drugs -- Metabolism

Biotransformation (Metabolism)

Metabolites

Psychotropic drugs -- Analysis

Phenothiazine

Drugs -- Oxidation

Médicaments -- Métabolisme

Biotransformation (Métabolisme)

Métabolites

Psychotropes -- Analyse

Phénothiazines

Drugs -- Oxydation

Biosensor

Drug screening

Prediction

EC-MS

Mass spectrometry

Electrochemistry

Screening

Cyclic voltammetry

prédiction

Voltampérométrie cyclique

Electrochimie

Spectrométrie de masse

Biocapteur

Ionic and electronic transport in electrochemical and polymer based systems

Volkov, Anton

January 2017

Electrochemical systems, which rely on coupled phenomena of the chemical change and electricity, have been utilized for development an interface between biological systems and conventional electronics.  The development and detailed understanding of the operation mechanism of such interfaces have a great importance to many fields within life science and conventional electronics. Conducting polymer materials are extensively used as a building block in various applications due to their ability to transduce chemical signal to electrical one and vice versa. The mechanism of the coupling between the mass and charge transfer in electrochemical systems, and particularly in conductive polymer based system, is highly complex and depends on various physical and chemical properties of the materials composing the system of interest. The aims of this thesis have been to study electrochemical systems including conductive polymer based systems and provide knowledge for future development of the devices, which can operate with both chemical and electrical signals. Within the thesis, we studied the operation mechanism of ion bipolar junction transistor (IBJT), which have been previously utilized to modulate delivery of charged molecules. We analysed the different operation modes of IBJT and transition between them on the basis of detailed concentration and potential profiles provided by the model. We also performed investigation of capacitive charging in conductive PEDOT:PSS polymer electrode. We demonstrated that capacitive charging of PEDOT:PSS electrode at the cyclic voltammetry, can be understood within a modified Nernst-Planck-Poisson formalism for two phase system in terms of the coupled ion-electron diffusion and migration without invoking the assumption of any redox reactions. Further, we studied electronic structure and optical properties of a self-doped p-type conducting polymer, which can polymerize itself along the stem of the plants. We performed ab initio calculations for this system in undoped, polaron and bipolaron electronic states. Comparison with experimental data confirmed the formation of undoped or bipolaron states in polymer film depending on applied biases. Finally, we performed simulation of the reduction-oxidation reaction at microband array electrodes. We showed that faradaic current density at microband array electrodes increases due to non-linear mass transport on the microscale compared to the corresponding macroscale systems.  The studied microband array electrode was used for developing a laccase-based microband biosensor. The biosensor revealed improved analytical performance, and was utilized for in situ phenol detection.

Modeling

Charge transport

Charge carriers Electrochemical systems

Polymer

PEDOT:PSS

Supercapacitance

Cyclic voltammetry

double layers

Nernst-Planck-Poisson

DFT

TDDFT

Ion Bipolar Junction Transistor

ETE-S

Materials Chemistry

Materialkemi

Condensed Matter Physics

Den kondenserade materiens fysik

Inorganic Chemistry

Oorganisk kemi

Textile, Rubber and Polymeric Materials

Textil-, gummi- och polymermaterial

Vliv namáhání alkalických akumulátorů na jejich parametry / The influence of alcaline accumulators loading on their parameters

Čech, Ondřej

January 2009

This master's thesis deals with alkaline battery characteristics and it has special consideration of nickel-cadmium cells. There are three main experimental parts in this paper. First one is concerned with positive electrode materials properties and is aimed to investigate impact of magnesium ions formed into nickel hydroxide electrode structure. Second part deals with battery charging/discharging and response measurement tool design. National Instruments hardware PXI modules for data acquisition was used and program in LabView environment was made. Last one is concerned with nickel-cadmium cell properties changes during increased temperature stressing. Investigation of cell self-charge changes during lithium hydroxide addition into electrolyte was made.

Katalyzátory pro kladnou elektrodu kyslíko-vodíkového palivového článku / Catalysts for positive electrode of hydrogen-oxygen fuel cell

Kováč, Martin

January 2010

Master's thesis deals with new methods of preparing catalytic materials for positive electrode of an oxygen-hydrogen fuel cell and the influence of potassium permanganate or doping agent molar mass change on theirs attributes. Further it studies the use of proper measuring methods designed to qualify theirs attributes and the presentation of achieved results. In particular methods of linear sweep and cyclic voltammetry and the processing of data using Koutecky-Levich and Tafel plot and wave log analysis. Values of half-wave and onset potential and kinetic coefficient have been measured and calculated.

Kompozitní elektrodové materiály pro lithium-iontové akumulátory na bázi LiFePO4 / Composite electrode materials for lithium-ion batteries based on LiFePO4 prepared using GAC method

Vilhelm, Ondřej

January 2011

Presented work investigates the problem of secondary lithium-ion cells and the different available cathode materials. We have prepared samples of LiFePO4 with the addition of different kinds of carbon materials such as Super P, Vulcan and expanded graphite. We have always created the sample with and without surfactant. Developed samples were compared by measuring electrochemical methods (cyclic voltammetry, charge and discharge cycles and impedance spectroscopy). We also modeled the three-point cell for measuring electrochemical electrode materials.

Elektrochemická charakterizace nanostrukturovaných povrchů modifikovaných biolátkami s thiolovou vazbou / Electrochemical Characterization of Nanostructured Surfaces Modified by Substancies with Thiol Bound

Urbánková, Kateřina

January 2014

This master thesis deals with nanotechnology, nanoparticles and nanostructured surfaces, electrochemical methods, especially voltammetry, cyclic voltammetry, electrochemical impedance spectroscopy and contact angle measurement. One part is focused on electrodes primarily nanostructured and modified by substancies with thiol bound. Tutorial for preparation of gold nanostructured electrods is introduced in practical section including SEM photos of electrode surface. Nanostructured and bare gold electrodes were modified by 11-mercaptoundecanoic acid, streptavidin, glycine and biotin and measured by cyclic voltammetry, electrochemical impedance spectroscopy and contact angle.

Elektrochemická impedanční spektroskopie jako charakterizační metoda modifikovaných nanostrukturovaných elektrod / Electrochemical impedance spectroscopy as a nanostructured bioelectrodes characterization method

Vrbová, Eva

January 2015

Diploma thesis deals of nanostructured surfaces, nanoparticles and electrochemical characterization methods such as cyclic voltammetry, differential pulse voltammetry and electrochemical impedance spectroscopy. The aim of this thesis is a theoretical research issues of production and characterization nanostructured modified electrodes. The practical part is the production of biomodified nanostructured electrodes by anodi- zation W/Al layers with galvanic deposition of gold or deposition of mercury, a modifi- cation of the electrodes by 11-mercaptoundecanoic acid and by bovine serum albumin (BSA). The thesis includes SEM images of nanostructured electrodes contact angle mea- surements of these electrodes and form an electrical circuit with subsequent simulation waveforms.

Charakterizace a analytické využití pyridinoporfyrazinátu kobaltu jako neplatinového mediátoru v elektrokatalýze vodíku / Characterization and Analytical Application of Cobalt Pyridinoporfyrazinate as a Non-Platinum Mediator in Hydrogen Electrocatalysis

Klusáčková, Monika

January 2019

This work reports on the cobalt pyridinoporphyrazinate (CoTmtppa) as a platinum-group metal-free catalyst for hydrogen evolution and oxidation reactions with the possibility of use in hydrogen energy and hydrogen potentiometric sensing. A different interaction of CoTmtppa with various electrode substrates, highly oriented pyrolytic graphite (HOPG) and annealed gold (Au(111)), affects its electrocatalytic behaviour in hydrogen reactions. The formation of a hydride-type complex with the bonding of hydrogen atoms to cobalt centre is supposed to be the rate-determining step. In the case of hydrogen evolution, the maximum catalytic activity of mediator was reached at pH = 11,0, when the HOPG/CoTmtppa showed overpotential decrease by 300 mV and an almost 60-fold increase of current densities compared to HOPG. The electrocatalytic activity of Au(111)/CoTmtppa resulted in a further decrease of overpotential by 175 mV in comparison with HOPG/Co(I)Tmtppa. The electrochemical oxidation of hydrogen was found to depend on hydrogen source which was electrochemically generated on-site or molecular hydrogen supplied from an external source. In the case of electrochemically generated hydrogen, the maximum activity of HOPG/CoTmtppa was reached at pH = 2.1 and an additional it was observed 50 % increase in current...