Caractérisation par électrochimie et spectroscopie infrarouge in situ d’une électrode d’or (111) modifiée par du 2-mercaptobenzimidazole / Electrochemical and in situ infrared spectroscopic characterization of a gold (111) electrode modified with 2-mercaptobenzimidazole

Doneux, Thomas

25 November 2005

Résumé du travail L’étude des modifications de surfaces, et plus particulièrement des matériaux d’électrodes est un domaine en plein essor. Les modifications d’électrodes par voie organique ont des applications potentielles dans des domaines aussi variés que l’inhibition de la corrosion, l’électronique moléculaire, l’optoélectronique ou encore les biosenseurs. Dans ce travail, nous nous sommes intéressés à l’électrode d’Au (111) modifiée par du 2-mercaptobenzimidazole. Dans un premier temps, l’adsorption du MBI sur électrode d’Au (111) sous contrôle du potentiel a été examinée par des mesures de capacité, de voltampérométrie cyclique, de chronocoulométrie et de spectroscopie SNIFTIR in situ. Les mesures de capacité révèlent qu’en milieu neutre, la molécule de MBI s’adsorbe en un film compact à des potentiels supérieurs à -0,3 V (vs. ECS). En deçà de cette valeur, le film se dilue progressivement lorsque le potentiel est rendu plus négatif, jusqu’à une valeur de -0,9 V où les molécules de MBI sont totalement désorbées de la surface. La morphologie des voltampérogrammes subit des variations significatives au cours du temps. Ces changements montrent que l’adsorption du MBI s’accompagne d’une levée de reconstruction de la surface, qui passe d’une structure initiale (√3 x 22) à une structure (1 x 1). Une estimation de la quantité de MBI adsorbée est obtenue par intégration des courbes de densité de courant. La courbe de densité de charge interfaciale a été extraite des mesures de chronocoulométrie. Cette courbe de densité de charge fournit des informations quant à l’évolution de l’excès superficiel en fonction du potentiel. La qualité des spectres infrarouges relevés in situ nous a permis d’effectuer des analyses qualitatives et quantitatives. Celles-ci montrent une bonne corrélation avec les résultats électrochimiques et apportent une signature moléculaire du film adsorbé et des espèces issues de sa désorption. Des calculs basés sur la Théorie de la Fonctionnelle de la Densité (DFT) ont permis une bonne interprétation des spectres infrarouges du MBI et de certains de ses dérivés. En outre, nous avons pu déterminer l’orientation des molécules à la surface, et montré que celle-ci varie peu avec le potentiel. Dans un second temps, nous nous sommes focalisés sur les propriétés de la monocouche auto-assemblée de MBI sur électrode d’Au (111), déterminées par voltampérométrie cyclique et spectroscopie infrarouge in situ. La monocouche est stable lorsque le potentiel est maintenu dans un domaine d’environ 800 mV. La monocouche auto-assemblée de MBI subit un processus de désorption réductive, influencé par le temps d’immersion de l’électrode dans la solution de surfactant ainsi que par le pH du milieu. Deux mécanismes de désorption réductive sont proposés, l’un valable en milieu neutre et basique, l’autre en milieu acide. Les résultats des mesures de spectroscopie infrarouge in situ apportent une preuve moléculaire de la validité des mécanismes proposés sur base des résultats électrochimiques. Un rapide examen des potentialités de cette monocouche a été réalisé à l’aide de réactions sondes. / Abstract Studies on surface modifications, and particularly of electrode material, are a growing field of interest. Organic modifications of electrode surfaces have potential applications in domains such as corrosion inhibition, molecular electronics, optoelectronics or biosensors. In the present work, we focussed on the modification of Au(111) electrodes by 2-mercaptobenzimidazole (MBI). In the first part, the adsorption, under potential control, of the MBI molecule onto the Au(111) electrode was studied by means of capacitance measurements, cyclic voltammetry, chronocoulometry and in-situ SNIFTIR spectroscopy. Capacitance measurements indicate that in neutral solution, the MBI molecule is adsorbed as a compact film at potentials higher than -0.3 V (vs. SCE). Below this value, the film becomes progressively less dense when the potential is made more negative, until a value of -0.9 V where MBI molecules are totally desorbed from the surface. The shape of the voltammograms evolves significantly with time. These changes show that a lift of the surface reconstruction occurs concomitantly to the adsorption of MBI. The initial (√3 x 22) reconstructed structure is lifted to the (1 x 1) unreconstructed one. The amount of adsorbed MBI is estimated by integration of the current density curves. The interfacial charge density curve was obtained by chronocoulometry measurements. This curve provides useful data regarding the evolution of the surface concentration with the potential. The quality of the infrared spectra obtained in situ allowed us to perform quantitative as well as qualitative analyses of the results. These analyses show a good correlation with the electrochemical results and provide molecular information on the adsorbed layer and on the species formed during the desorption process. Density Functional Theory (DFT) calculations were helpful in the interpretation of the infrared spectra of MBI and some of its derivatives. Additionally, we were able to determine the orientation of the molecules on the surface, and demonstrated that this orientation is slightly affected by the potential. In the second part of the work, we investigated the properties of the self-assembled monolayer of MBI on Au(111) electrode by cyclic voltammetry and in situ infrared spectroscopy. The monolayer is stable within an 800 mV potential range. The self-assembled monolayer undergoes a reductive desorption process, which is affected by the pH of the medium and by the immersion time of the electrode into the surfactant solution. Two mechanisms were proposed for the reductive desorption, one being valid in neutral and basic media, the other in acidic conditions. The in situ infrared spectroscopic results provide molecular evidences supporting the mechanisms proposed on an electrochemical basis. An exploratory examination of the potentialities of the monolayer is made by means of electrochemical probe reactions.

single crystal

electrochemical interface

gold-sulphur bond

gold electrode

FTIR

SAM

lien or-soufre

électrode d'or

interface électrochimique

monocouche auto-assemblée

monocristal

Towards reliable contacts of molecular electronic devices to gold electrodes

Cafe, Peter F

January 2008

PhD / SYNOPSIS OF THIS THESIS The aim of this thesis is to more fully understand and explain the binding mechanism of organic molecules to the Au(111) surface and to explore the conduction of such molecules. It consists of five discreet chapters connected to each other by the central theme of “The Single Molecule Device: Conductance and Binding”. There is a deliberate concentration on azine linkers, in particular those with a 1,10-phenanthroline-type bidentate configuration at each end. This linker unit is called a “molecular alligator clip” and is investigated as an alternative to the thiol linker unit more commonly used. Chapter 1 places the work in the broad context of Molecular Electronics and establishes the need for this research. In Chapter 2 the multiple break-junction technique (using a Scanning Tunnelling Microscope or similar device) was used to investigate the conductance of various molecules with azine linkers. A major finding of those experiments is that solvent interactions are a key factor in the conductance signal of particular molecules. Some solvents interfere with the molecule’s interaction with and attachment to the gold electrodes. One indicator of the degree of this interference is the extent of the enhancement or otherwise of the gold quantized conduction peak at 1.0 G0. Below 1.0 G0 a broad range for which the molecule enhances conduction indicates that solvent interactions contribute to a variety of structures which could bridge the electrodes, each with their own specific conductance value. The use of histograms with a Log10 scale for conductance proved useful for observing broad range features. vi Another factor which affects the conductance signal is the geometric alignment of the molecule (or the molecule-solvent structure) to the gold electrode, and the molecular alignment is explored in Chapters 3 for 1,10-phenanthroline (PHEN) and Chapter 4 for thiols. In Chapter 3 STM images, electrochemistry, and Density Functional Theory (DFT) are used to determine 1,10-phenanthroline (PHEN) structures on the Au(111) surface. It is established that PHEN binds in two modes, a physisorbed state and a chemisorbed state. The chemisorbed state is more stable and involves the extraction of gold from the bulk to form adatom-PHEN entities which are highly mobile on the gold surface. Surface pitting is viewed as evidential of the formation of the adatom-molecule entities. DFT calculations in this chapter were performed by Ante Bilic and Jeffery Reimers. The conclusions to Chapter 3 implicate the adatom as a binding mode of thiols to gold and this is explored in Chapter 4 by a timely review of nascent research in the field. The adatom motif is identified as the major binding structure for thiol terminated molecules to gold, using the explanation of surface pitting in Chapter 3 as major evidence and substantiated by emergent literature, both experimental and theoretical. Furthermore, the effect of this binding mode on conductance is explored and structures relevant to the break-junction experiment of Chapter 2 are identified and their conductance values compared. Finally, as a result of researching extensive reports of molecular conductance values, and having attempted the same, a simple method for predicting the conductance of single molecules is presented based upon the tunneling conductance formula.

phenanthroline

molecular electronics

break junction

self-assembled monolayer

DPPZ

azine linker

physisorbed

chemisorbed

surface pitting

adatom

thiol binding

gold electrode

porphyrin

molecular conduction

Towards reliable contacts of molecular electronic devices to gold electrodes

Cafe, Peter F

January 2008

PhD / SYNOPSIS OF THIS THESIS The aim of this thesis is to more fully understand and explain the binding mechanism of organic molecules to the Au(111) surface and to explore the conduction of such molecules. It consists of five discreet chapters connected to each other by the central theme of “The Single Molecule Device: Conductance and Binding”. There is a deliberate concentration on azine linkers, in particular those with a 1,10-phenanthroline-type bidentate configuration at each end. This linker unit is called a “molecular alligator clip” and is investigated as an alternative to the thiol linker unit more commonly used. Chapter 1 places the work in the broad context of Molecular Electronics and establishes the need for this research. In Chapter 2 the multiple break-junction technique (using a Scanning Tunnelling Microscope or similar device) was used to investigate the conductance of various molecules with azine linkers. A major finding of those experiments is that solvent interactions are a key factor in the conductance signal of particular molecules. Some solvents interfere with the molecule’s interaction with and attachment to the gold electrodes. One indicator of the degree of this interference is the extent of the enhancement or otherwise of the gold quantized conduction peak at 1.0 G0. Below 1.0 G0 a broad range for which the molecule enhances conduction indicates that solvent interactions contribute to a variety of structures which could bridge the electrodes, each with their own specific conductance value. The use of histograms with a Log10 scale for conductance proved useful for observing broad range features. vi Another factor which affects the conductance signal is the geometric alignment of the molecule (or the molecule-solvent structure) to the gold electrode, and the molecular alignment is explored in Chapters 3 for 1,10-phenanthroline (PHEN) and Chapter 4 for thiols. In Chapter 3 STM images, electrochemistry, and Density Functional Theory (DFT) are used to determine 1,10-phenanthroline (PHEN) structures on the Au(111) surface. It is established that PHEN binds in two modes, a physisorbed state and a chemisorbed state. The chemisorbed state is more stable and involves the extraction of gold from the bulk to form adatom-PHEN entities which are highly mobile on the gold surface. Surface pitting is viewed as evidential of the formation of the adatom-molecule entities. DFT calculations in this chapter were performed by Ante Bilic and Jeffery Reimers. The conclusions to Chapter 3 implicate the adatom as a binding mode of thiols to gold and this is explored in Chapter 4 by a timely review of nascent research in the field. The adatom motif is identified as the major binding structure for thiol terminated molecules to gold, using the explanation of surface pitting in Chapter 3 as major evidence and substantiated by emergent literature, both experimental and theoretical. Furthermore, the effect of this binding mode on conductance is explored and structures relevant to the break-junction experiment of Chapter 2 are identified and their conductance values compared. Finally, as a result of researching extensive reports of molecular conductance values, and having attempted the same, a simple method for predicting the conductance of single molecules is presented based upon the tunneling conductance formula.

phenanthroline

molecular electronics

break junction

self-assembled monolayer

DPPZ

azine linker

physisorbed

chemisorbed

surface pitting

adatom

thiol binding

gold electrode

porphyrin

molecular conduction

Desenvolvimento de sensores eletroquÃmicos para detecÃÃo de molinato e Ãxido nÃtrico / Electrochemical sensors development for detection of nitric oxide and molinate

TÃlio Ãtalo da Silva Oliveira

01 March 2013

CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior / O presente trabalho ilustra o desenvolvimento de uma rota sintÃtica para a obtenÃÃo de uma meso-metaloporfirina, a partir de uma meso-porfirina base livre, macromolÃcula derivada do LÃquido da Casca da Castanha de Caju (LCC), subproduto do agronegÃcio do caju. A obtenÃÃo dessas espÃcies seguida de estudos preliminares da modificaÃÃo da superfÃcie do eletrodo de ouro com a meso-metaloporfirina de cobre com aplicaÃÃo para sensor de NO (Ãxido NÃtrico) tambÃm compÃe os objetivos desse trabalho. A partir do processo de metalaÃÃo,foi sintetizada uma meso-metaloporfirina utilizando Cu (II) como centro metÃlico, a partir da macromolÃcula base livre, e testes voltamÃtricos foram realizados utilizando o eletrodo de ouro, em meio de diclorometano e PTBA 0,1 mol L-1, obtido a 100 mV s-1.Estudos foram realizados a cerca do comportamento eletroquÃmico dos filmes formados em presenÃa de NO em meio aquoso de Na2SO4 0,5 mol L-1 obtendo o voltamograma cÃclico para o eletrodo de ouro modificado com a porfirina de cobre(II) na detecÃÃo de NO e foi observado no voltamograma para NO sobre uma intensidade de corrente 7,6 vezes maior comparada à do pico observado para o mesmo processo do NO na superfÃcie de ouro nÃo modificado demonstrando elevado potencial para aplicaÃÃo como sensor eletroquÃmico. Outra metodologia eletroanalÃtica foi desenvolvida para a obtenÃÃo de um biossensor, baseado em uma enzima, glutationa-S-transferase (GST), para determinaÃÃo do pesticida molinato, um herbicida prÃ-emergente, em amostras reais de Ãgua de campos de arrozais da cidade do Porto, em Portugal. A construÃÃo deste biossensor baseou-se a imobilizaÃÃo de GST em um eletrodo de carbono vÃtreo (GCE), atravÃs da ligaÃÃo covalente glutaraldeÃdo-amino-silano (APTES/GA). O princÃpio deste biossensor consistiu no processo de inibiÃÃo da GST promovida pelo molinato. A curva de calibraÃÃo foi obtida por meio da tÃcnica de voltametria de pulso diferencial (VPD) variando a concentraÃÃo do pesticida entre 1,01x10-6 â 4,20x10-5 mol L-1 apresentando um limite de detecÃÃo (LD) de 0,064 mg L-1. O biossensor baseado na GST foi aplicado para quantificar o molinato nas amostras de Ãgua das lavouras de arrozais. Os resultados obtidos com este biossensor foram comparados com aqueles obtidos por HPLC e nÃo houve diferenÃas estatisticamente significativas comprovando, entÃo, que a metodologia desenvolvida foi precisa no nÃvel de concentraÃÃo estudada. / This study illustrates the development of synthetic route will be obtaining meso-metalloporphyrin, from porphyrin meso-free base macromolecule derived from Shell Liquid Cashew Nut (CNSL), byproduct of cashew agribusiness. Obtaining these species followed by preliminary studies of surface modification of gold electrode with copper meso-metalloporphyrin with application to sensor of NO (Nitric Oxide) also composed the objectives of this work. From metalation process, was synthesized by meso-metalloporphyrin using Cu (II) the a metal to center, from the macromolecule free base, and voltametric tests were carried out using the gold electrode in the middle of dichloromethane and TBAP 0,1 mol L-1, obtained at 100 mV s-1. Studies have been conducted about the electrochemical behavior of the films formed in the presence of NO in aqueous Na2SO4 0,5 mol L-1 the cyclic voltammogram obtained will be the gold electrode modified with porphyrin to copper (II) the detection of NO and voltammogram was observed in about one NO to current intensity 7,6 times larger compared to the peak observed for the same process of NO in unmodified gold surface showing high potential for application as an electrochemical sensor. Electroanalytical another methodology was developed will be obtaining the biosensor, based on an enzyme, glutathione-S-transferase (GST), will be determining the pesticide molinate, the real daily pre-emergent herbicide in samples of to water of paddy fields City Porto, in Portugal. The construction of this biosensor was based on the immobilization of GST in glassy carbon electrode (GCE) by covalent glutaraldehyde-amino-silane (APTES/GA). The principle of this biosensor consisted of the process promoted by inhibition of GST molinate. The calibration curve was obtained by the technique of differential pulse voltammetry (DPV) varying the concentration of the pesticide between 1,01 x10-6 to 4,20 x10-5 mol L-1 having a limit of detection (DL) of 0,064 mg L-1. The biosensor based on GST was applied to quantify the molinate in water samples of paddy crop. The results obtained with this biosensor were compared with those obtained by HPLC and no statistically significant differences proving therefore that the developed methodology has been studied in terms of concentration.

LCC

Meso-metaloporfirina

Eletrodo de ouro

Sensor de NO

Biossensor

glutationa-S-transferase

molinato

ELETROANALITICA

Développement d'une stratégie d'adressage sur or par chimie "click" électro-catalysée : application à la détection sans marquage de biomolécules / Addressing strategy on gold by electrocatalyzed « click » chemistry : label-free detection of biomolecules

Ripert, Micaël

06 November 2013

La réalisation de microsystèmes de multidétection et sans marquage pour la reconnaissance de biomolécules est d'un intérêt fondamental pour la réalisation de tests rapides dédiés au diagnostic biologique. Ces développements nécessitent une méthode d'adressage des sondes de capture sur une plateforme multiplexée associée à une méthode d'analyse sensible. Dans cette étude, la méthode de détection choisie pour les tests développés sur la puce est la voltampérométrie cyclique, et le férrocène a été utilisé pour la modification de sondes oligonucléotidiques de type tige-boucle. Une stratégie d'électroadressage a été développée sur surface d'or. Elle a été réalisée via chimie « click » entre un alcyne et un azoture. Cette réaction peut être électro-catalysée en maintenant le catalyseur cuivre sous sa forme active par l'application d'un potentiel à l'électrode. Une première entité chimique de petite taille, constituée de deux groupements dithiol phosphate et d'un groupement hexynyle a été synthétisé par synthèse supportée et greffée sur électrode d'or. Par la suite, différents éléments ont été immobilisés par chimie « click ». Un dérivé ferrocène porteur d'une fonction azoture a été utilisé pour la détermination des conditions optimales de cette chimie. Puis, cette méthode a été exploitée pour l'immobilisation de nanoparticules fluorescentes et de protéines par l'intermédiaire de la formation du complexe biotine/streptavidine. Enfin, cette méthode a permis l'électroadressage de sondes de capture oligonucléotidiques de type tige-boucle, modifiées par des ferrocènes. Des tests d'hybridation ADN ont été menés en milieu complexe avec une limite de détection déterminée à 100fM / This production of microsystem for label-free multi detection of biomolecules is fundamental for the realization of rapid tests dedicated to laboratory diagnosis. A viable method is requires to both address capture probes and to be associates with a sensitive analysis on multiplexed platform. In this study, the method chosen for detection on electrode is cyclic voltammetry, and ferrocene was used to modify stem-loop oligonucleotides. A strategy was developed for the electroadressing of probes on gold surface. It is performed through chemistry “click” between an alkyne and an azide. This reaction may be catalyzed by maintaining the correct potential to the electrode to form an active copper oxidation state on the surface. A first small chemical entity, containing two phosphate dithiol moieties and a hexynyl moiety was synthesized by supported chemistry and grafted on gold electrode. Thereafter, various elements were immobilized by chemistry “click”. Ferrocene derivative carrying an azide function was used to determine the optimal conditions for this chemistry. Then, this method has been exploited for the immobilization of proteins and fluorescent nanoparticles via the formation of biotin/streptavidin complex. Finally, this method allowed to electroaddress stem-loop oligonucleotids, designed as capture probes, modified by ferrocene. DNA hybridization tests were conducted in complex environments with a detection limit determined at 100 fM

Férrocène

Détection électrochimique

ADN

Puce à ADN

Chimie «click»

Électro-catalyse

Électrode d'or

Adressage

Ferrocene

Electrochemical detection

DNA

DNA microarray

Chemistry “click”

Electrocatalysis

Gold electrode

Adressing

543.4

Stanovení kreatininu pomocí pulsní amperometrie / Determination of creatinine using pulsed amperometry

Giampaglia, Dominika

January 2021

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....

Development Of Novel Redox Sensors And Processes Towards Biological Applications

Patel, Jigna

01 January 2013

Research on the cure and early detection of diseases such as diabetes, Alzheimer's, and Parkinson's is becoming of great interest due to the increasing number of people affected by them every year. An accurate and quick detection of various damaging species is highly critical in treatments of such diseases not only for exploring possible cures but also for early detection. If these diseases are detected during the initial stages than the possibility of curing them is much higher. Motivated by this, many researchers today have developed numerous types of sensing devices that can detect various physiological and biological compounds. However, most of these sensors are enzyme based. They have several setbacks such as the lack of sensitivity, restricted selectivity, short shelf life, and biological fouling. To overcome these obstacles, we examine the use of nanoceria modified Pt and Au electrodes for the detection of glucose and reactive oxygen species such as hydrogen peroxide. Amperometric detection of glucose and hydrogen peroxide is critical for biological applications for diabetes and possible Alzheimer's and Parkinson's patients. This dissertation focuses on the exploration of non-enzymatic detection of glucose and reactive oxygen species which has the prospective to be used for biological applications, in addition to an investigation of an odor control technology that uses these reactive oxygen species for the treatment of wastewater plants. The combination of bi-metallic composites with nanoceria showed increased oxidation ability towards glucose and hydrogen peroxide. The following dissertation expands on the relationship between bi-metallic nanoceria composite materials and its electro-oxidation of glucose and hydrogen peroxide towards biological sensing along with an investigation of an odor control technology that utilizes generates hydroxyl radical fine particle mist for the degradation of hydrogen sulfide odor in wastewater treatment plants.

Electrochemical sensors

non enzymatic sensor

amperometric detection

redox

glucose

reactive oxygen species

hydrogen peroxide

hydrogen sulfide

odor

ozone

diabetes

nanoceria

ceria

gold electrode

platinum electrode

hydroxyl radicals

Chemistry

Elektrohemijsko određivanje histamina / Electrochemical determination of histamine

Stojanović Zorica

23 September 2011

<p>U ovom radu su razvijene elektrohemijske metode za određivanje histamina. U svim<br />elektrohemijskim ispitivanjima kori&scaron;ćena je hronopotenciometrija. Istraživanja su obuhvatila optimizaciju uslova elektroanalitičkih tehnika i upoređivanje mehanizama generisanja analitičkog signala primenom različitih radnih elektroda, razvoj odgovarajućeg postupka pripreme uzoraka za analizu i samo određivanje histamina u hrani i piću. Ispitana je mogućnost primene čvrste zlatne elektrode, tankoslojne živine i tankoslojne niklove elektrode za elektrohemijsko određivanje histamina. U slučaju elektrooksidacije histamina, razja&scaron;njeni su mehanizmi generisanja signala na primenjenim elektrodama. Optimizacija uslova elektroanalitičkih tehnika obuhvatila je odabir odgovarajućeg pomoćnog elektrolita i njegove koncentracije, ispitivanje uticaja početnog potencijala i struje oksidacije na analitički signal analita. Pored toga, za svaki elektrohemijski sistem definisana su osetljivost i reproduktivnost, selektivnost, kao i opseg linearnosti. Primenom tankoslojne niklove elektrode uočena je pojava adsorpcionog koncentrovanja analita, te su u slučaju ovog elektrohemijskog sistema ispitani i uticaji vremena adsorpcije i temperature ispitivanog medijuma na analitički signal histamina. Na tankoslojnoj živinoj elektrodi analitički signal se generisao usled direktne oksidacije histamina primenom konstantne struje. Na ostale dve elektrode, pored elektrodnih reakcija odvijale su se i hemijske reakcije, tako da se oksidacija histamina u oba slučaja odigravala po ECE mehanizmu (elektrodna reakcija &ndash; hemijska reakcija &ndash; elektrodna reakcija). Na čvrstoj zlatnoj elektrodi, generisanje signala je bilo posledica oksidacije histamina elektrogenerisanim hlorom, dok se u slučaju tankoslojne niklove elektrode radilo o kombinovanoj katalitičko‐adsorpcionoj hronopotenciometriji. Tankoslojna živina elektroda je pokazala dobru selektivnost pri koncentracijama aminokiselina i histamina nižim od 5 mg/dm³, dok je pri vi&scaron;im koncentracijama dolazilo do preklapanja analitičkih signala. Ostali elektrohemijski sistemi nisu pokazali odgovarajuću selektivnost. Najveća osteljivost je ostvarena primenom tankoslojne niklove elektrode (LOD = 0,11 mg/dm³), zatim sledi čvrsta zlatna elektroda (LOD = 0,27 mg/dm³) i na kraju tankoslojna živina elektroda (LOD = 1,31 mg/dm³). U okviru definisanja postupka pripreme uzoraka, ispitana je efikasnost različitih ekstrakcionih tehnika i različitih ekstragenasa u pogledu izdvajanja histamina iz uzoraka. Pored toga razvijeni su odgovarajući postupci preči&scaron;ćavanja ekstrakata primenom preparativnih hromatografskih tehnika, i to na tankom sloju i na stubu adsorbensa. Po definisanju optimalnih uslova elektrohemijskog određivanje histamina, kao i razvijanja postupka pripreme uzoraka, histamin je određen u različitoj hrani i piću.</p> / <p>In this work, the electrochemical methods for the determination of histamine were<br />developed. All electrochemical investigations were carried out by chronopotentiometry. The research included optimization of the experimental parameters of electroanalytical techniques and comparison of the mechanism of the analytical signal generation by using the different working electrodes. Upon the development of sample preparation procedure, histamine was determined in different food and beverages. The possibility of applying solid gold electrodes, thin film mercury electrode and thin film nickel electrode for electrochemical determination of histamine was examined. The mechanisms of histamine electrooxidation on different working electrodes were explained and elaborated. Optimization of the experimental parameters of electroanalytical techniques included the selection of appropriate supporting electrolyte and its concentration, and investigation of the influence of initial potential and oxidation current on histamine analytical signal. Beside this, for each electrochemical system sensitivity and reproducibility, selectivity as well as linearity range were defined. The use of thin nickel film electrode resulted in adsorptive accumulation, and in that case the effects of accumulation time and medium temperature on histamine analytical signal were defined. On thin film mercury electrode, histamine analytical signal was generated<br />due to direct oxidation of histamine by a constant current. On other two electrodes, electrode reactions were coupled with chemical reaction, and histamine oxidation was by ECE mechanism (electrode reaction &ndash; chemical reaction &ndash; electrode reaction). On solid gold electrode histamine was oxidized indirectly by electrogenerated chlorine, while in the case of thin film nickel electrode combination of catalytic and adsorptive chronopotentiomety was responsible for signal generation. Thin film mercury electrode showed good selectivity for histamine and amino acids concentrations below 5 mg/dm³, but higher concentrations caused the overlapping of analytical signals. Other electrochemical systems did not show adequate selectivity. The best sensitivity was achived by thin film nickel electrode (LOD = 0.11 mg/dm³),<br />followed by a solid gold electrode (LOD = 0.27 mg/dm³), and by thin film mercury electrode (LOD = 1.31 mg/dm³). In order to define adequate sample preparation procedure, the efficiency of different extraction techniques and different solvents were tested for histamine extraction from the samples. Appropriate procedures for purification of extracts were defined as well, by applying preparative thin layer and column chromatography. After optimization of the electrochemical methods for histamine determination, as well as the procedure of sample preparation, developed methods were applied for histamine determination in various food and beverages.</p>

Mecanismo reacional de etanotiol em eletrodo de ouro e seu comportamento em sistemas redox / Reactional mechanism of ethanethiol on gold electrode and its behaviour in redox systems

Dias, Daiane

10 August 2012

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Sulphur compounds can interfere with product quality of the wine, since they have a characteristic undesirable odor. The ethanethiol is considered an interesting compound from the electrochemical point of view, since it can become oxidized or reduced and thus, it can be studied both on polarized electrode surfaces and redox solutions. Therefore, the present work was divided in the study of reaction mechanism of ethanethiol on polarized electrode (gold electrode) and the study of the ethanethiol behavior in the redox system in solution (wine). The first part was developed by applying techniques such as cyclic voltammetry, differential pulse and atomic force microscopy. This allowed a complete characterization of ethanethiol on electrochemical gold electrode in alkaline medium with respect to its reaction mechanism, and also a large morphological characterization of the gold electrode. In the second part of the work a study about the ethanethiol influence on the antioxidant activity of compounds present in wine (resveratrol and gallic acid) and its influence in the antioxidant activity and in the concentration of phenolic compounds in wine was carried out. The wines were: Cabernet Suavignon Cabernet (2012 and 2006), Merlot (2012 and 2008), Pinot noir red and rose (2012) and Chardonnay (2011). Moreover, the electroanalytical determination of the ethanethiol (representing the class of low molecular weight thiols), inorganic sulfide and sulfite, using the stripping voltammetry and cathodic electrode mercury drop in acid medium, was carried out. / Compostos de enxofre podem interferir na qualidade do produto final do vinho, uma vez que apresentam odor indesejável característico. O etanotiol é considerado um composto interessante do ponto de vista eletroquímico, uma vez que pode se oxidar ou se reduzir podendo então ser estudado tanto em superfícies de eletrodos polarizados quanto em uma solução redox. Sendo assim, o presente trabalho foi dividido no estudo do mecanismo reacional do etanotiol em eletrodo polarizado (eletrodo de ouro) e o estudo do comportamento do etanotiol frente a sistema redox em solução (vinho). A primeira parte foi desenvolvida aplicando-se técnicas como voltametria cíclica, de pulso diferencial e microscopia de força atômica. Isto possibilitou obter uma completa caracterização eletroquímica do etanotiol no eletrodo de ouro em meio alcalino, no que se refere ao mecanismo reacional do mesmo, e também uma ampla caracterização morfológica do eletrodo de ouro. Na segunda parte do trabalho realizou-se o estudo da influência do etanotiol na atividade antioxidante de compostos presentes no vinho (resveratrol e ácido gálico), assim como sua influência na atividade antioxidante e na concentração de fenóis totais no vinho. Os vinhos estudados foram: Cabernet Suavignon safras 2012 e 2006, Merlot safras 2012 e 2008, Pinot noir tinto e rose safra 2012, Chardonnay safra 2011. Além disso, realizou-se a determinação eletroanalítica de etanotiol (representando a classe de tióis de baixo peso molecular), sulfeto inorgânico e sulfito, utilizando-se a voltametria de redissolução catódica e eletrodo de mercúrio de gota pendente em meio ácido.

Voltametria

Microscopia de força atômica

Eletrodo de ouro

Vinho

Atividade antioxidante

Concentração de fenóis totais

Voltammetry

Atomic force microscopy

Gold electrode

Wine

Antioxidant activity

Total phenol concentration

Desenvolvimento de metodologia eletroanalítica para quantificação de filtros solares em cosméticos usando eletrodos modificados

Neves, Raiane Aparecida Lopes

21 February 2017

Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-07-20T12:27:21Z No. of bitstreams: 1 raianeaparecidalopesneves.pdf: 1081293 bytes, checksum: de7acb253e8ce7cc8f93a2e3685690c4 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-08-09T12:50:31Z (GMT) No. of bitstreams: 1 raianeaparecidalopesneves.pdf: 1081293 bytes, checksum: de7acb253e8ce7cc8f93a2e3685690c4 (MD5) / Made available in DSpace on 2017-08-09T12:50:31Z (GMT). No. of bitstreams: 1 raianeaparecidalopesneves.pdf: 1081293 bytes, checksum: de7acb253e8ce7cc8f93a2e3685690c4 (MD5) Previous issue date: 2017-02-21 / A importância e a necessidade do uso de protetores solares, também denominados fotoprotetores, nos últimos anos, é uma realidade inquestionável, visto que protegem a pele contra a radiação ultravioleta. A resolução RDC nº 47 de março de 2006 da Agência Nacional de Vigilância Sanitária (ANVISA) determina quais tipos de filtros podem ser usados em produtos de higiene pessoal, cosméticos e perfumes, bem como sua concentração máxima permitida (10 % para benzofenona-3 - BZ-3, 4 % para 4-metilbenzilideno cânfora – MBC e 10 % para 4-metoxicinamato-2-etilhexila – OMC). Portanto, o presente trabalho teve como objetivo o desenvolvimento de um método eletroanalítico utilizando eletrodos modificados e voltametria de onda quadrada para quantificar BZ-3, MBC e OMC em amostras de protetor solar. Foram otimizadas a composição do eletrólito, eletrodo de trabalho e a técnica voltamétrica aplicada. O sistema eletroquímico consistiu em uma célula com três eletrodos: trabalho – eletrodo de ouro modificado com filme de mercúrio, referência – Ag/AgCl(sat) e auxiliar - platina, como eletrólito foi usado 4,0 mL de Tampão Britton Robinson 0,04 mol.L-1 (pH = 4,0), 1,0 mL de Metanol (grau HPLC) e 5,50 x 10-4 mol.L-1 de brometo de cetiltrimetilamônio. As medidas eletroquímicas foram realizadas por voltametria de onda quadrada, sendo o sistema eletroquímico submetido a purga com argônio por 12 minutos antes das análises. Os limites de detecção (LD) e quantificação (LQ) foram 0,47 mg.L-1 e 1,56 mg.L-1 para BZ-3, 0,77 mg.L-1 e 2,58 mg.L-1 para MBC e 0,78 mg.L-1 e 2,59 mg.L-1 para OMC. O método mostrou valores de recuperação entre 83,3 a 98,1 %. Foram encontrados valores de concentração para BZ-3 de 3,49 % m/m (728 mg.L-1), para MBC de 0,56 % m/m (113 mg.L-1) e para OMC 0,99 % m/m (208 mg.L-1). As amostras de protetor solar foram avaliadas por cromatografia líquida de alta eficiência, como método de referência, demostrando uma boa correlação entre os resultados. Desta forma, todos os valores estão abaixo do permitido pela ANVISA. / In the last few years, the importance and necessity of the use of sunscreen protectors, also denominated photoprotectors, is an unquestionable reality, since they protect the skin against the ultraviolet radiation. The resolution RDC n. 47 of March, 2006 of National Sanitary Vigilance Agency (ANVISA) determines which kinds of filters can be used in personal hygiene products, cosmetics and perfumes, as well as their maximal allowed concentration (10% benzophenone-3 – BZ-3, 4% to camphor 4-metylbenzilidene – MBC and 10% to 2-ethylhexyl-4-methoxycinnamate – OMC). Therefore, the present work has as objective the development of an electroanalytical method utilizing modified electrodes and square wave voltammetry to quantify BZ-3, MBC and OMC in sunscreen protector samples. The electrode composition, work electrode and voltammetric technique were optimized. The electrochemical system consisted of a cell with three electrodes: work – gold electrode modified with mercury film, reference – Ag/AgCl(sat) and auxiliary – platinum, using as electrolyte 4.0 mL of Britton Robinson Buffer 0.04 mol.L-1 (pH = 4.0), 1.0 mL of methanol (HPLC degree) and 5.50 x 10-4 mol.L-1 of cetyltrimethylammonium bromide. The electrochemical measurements were realized by square wave voltammetry, being the electrochemical system under an argon purge for 12 minutes before the analyses. The detection (LD) and quantification (LQ) limits were 0.47 mg.L-1 and 1.56 mg.L-1 to BZ-3, 0.77 mg.L-1 and 2.58 mg.L-1 to MBC and 0.78 mg.L-1 and 2.59 mg.L-1 to OMC. The method showed recovery values between 83.3 and 98.1%. Concentration values found were 3.49% m/m (728 mg.L-1) to BZ-3, 0.56% m/m (113 mg.L-1) to MBC and 0.99% m/m (208 mg.L-1) to OMC. The sunscreen protector samples were evaluated by high performance liquid chromatography, as the reference method, demonstrating a good correlation between the results. In this way, all the values are below of that allowed by ANVISA.

Protetor solar

BZ-3

OMC

MBC

Sunscreen protectors

Analysis by square wave voltammetry

BZ-3

OMC

MBC