Global ETD Search

221	Electrochemical characterization of nanostructured SnO2 and TiO2 for potential application as dielectric materials in sulfonated-polyaniline based supercapacitors Ngqongwa, Lundi Vincent January 2010 (has links) Magister Scientiae - MSc / In this research project, nanostructured composites based on Tin dioxide (SnO2) and Titanium dioxide (TiO2) with poly-4-styrene sulfonic acid (PSSA) doped polyaniline (PANI) conducting polymer has been investigated based on their structural, electrical and electrochemical properties. The synthesis of conducting polymers and their metal oxide or composites have been carried out chemically or electrochemically according to methods modified from the literature. Layer-by-layer construction of nano-Metal Oxide/PSSA doped polyaniline composites were successfully constructed by electroanalytical methods on the surface of a glassy carbon working electrode (GCE). / South Africa Polyaniline Poly-4-styrene sulfonic acid Tin dioxide (SnO2) Titanium dioxide (TiO2) Supercapacitors Electrochemical impedance Cyclic voltammetry Electropolymerization Conducting polymers Galvanostatic charge-discharge Glassy carbon electrode
222	Synthesis and electrochemistry of novel conducting dendrimeric star copolymers on poly(propylene imine) dendrimer Baleg, Abd Almonam Abd Alsalam January 2011 (has links) Philosophiae Doctor - PhD / One of the most powerful aspects of conducting polymers is their ability to be nanostructured through innovative, synthetically manipulated, transformations, such as to tailor-make the polymers for specialized applications. In the exponentially increasing wide field of nanotechnology, some special attention is being paid to innovative hybrid dendrimer-core based polymeric smart materials. Star copolymers are a class of branched macromolecules having a central core with multiple linear polymer chains extending from the core. This intrinsic structural feature yields a unique 3D structure with extended conjugated linear polymer chains, resulting in star copolymers, which have higher ionic conductivities than their corresponding non-star conducting polymer counterparts. In this study an in-depth investigation was carried out into the preparation and characterization of specialized electronic smart materials. In particular, the preparation and characterization of novel conducting dendrimeric star copolymers which have a central poly(propylene imine) (PPI) dendrimer core with conducting polypyrrole (PPy) chains extending from the core was carried out. This involved, first, the preparation of a series of dendrimeric polypyrrole poly(propylene imine) star copolymers (PPI-co-PPy), using generations 1 to 4 (G1 to G4) PPI dendrimer precursors. The experimental approach involved the use of both chemical and electrochemical synthesis methods. The basic procedure involved a condensation reaction between the primary amine of a diamino functional PPI dendrimer surface and 2-pyrrole aldehyde, to afford the pyrrole functionalized PPI dendrimer (PPI-2Py). Polymerization of the intrinsically contained monomeric Py units situated within the dendrimer backbone was achieved via two distinctly different routes: the first involved chemical polymerization and the second was based on potentiodynamic oxidative electrochemical polymerization. The star copolymers were then characterized using various sophisticated analytical techniques, in-situ and ex-situ. Proton nuclear magnetic resonance spectroscopy (1HNMR) and Fourier transform infrared spectroscopy (FTIR) were used to determine the structures. Scanning electron microscopy (SEM) was used to determine the morphology. Themogravimetric analysis (TGA) was used to study the thermal stability of the prepared materials. X-ray diffraction analysis (XRD) was used to study the structural make-up of phases, crystallinity and amorphous content. Hall effect measurements were carried out to determine the electrical conductivity of the chemically prepared star copolymers. The PPI-co-PPy exhibited improved thermal stability compared to PPI-2Py, as confirmed by TGA. SEM results showed that the surface morphology of the functionalized dendrimer and star copolymer differed. The surface morphology of the chemically prepared star copolymers resembled that of a flaky, waxy material, compared to the ordered morphology of the electrochemically grown star copolymers, which resembled that of whelk-like helixes. In the case the electrochemically grown star copolymers, SEM images recorded at higher magnifications showed that the whelk-like helixes of the star copolymers were hollow tubes with openings at their tapered ends, and had an average base diameter of 2.0 mu;m. X-ray diffraction analysis of the first generation star copolymer G1PPI-co-PPy revealed a broadly amorphous structure associated with PPy, and crystalline peaks for PPI. Cyclic voltammetry (CV), square wave voltammetry (SWV) and electrochemical impedance spectroscopy (EIS) techniques were used to study and model the electrochemical reactivity of the star copolymer materials. Electrochemical impedance spectroscopy data showed that the G1PPI-co-PPy exhibited slightly higher ionic conductivity than pristine PPy in lithium perchlorate. The second generation star copolymer G2PPI-co-PPy electrochemically deposited on a platinum (Pt) electrode had a lower electrochemical charge transfer resistance compared to electrodeposited polypyrrole (PPy) on a Pt electrode, and bare Pt. The decrease in charge transfer resistance was attributed to an increase in the conjugation length of the polymer as a result of the linking of the highly conjugated PPy to the PPI dendrimer. Bode impedimetric analysis indicated that G2PPI-co-PPI was a semiconductor, with a maximum phase angle shift of 45.3° at 100 MHz. The star copolymer exhibited a 2- electron electrochemistry and a surface coverage of 99%. Results of Hall effect measurements showed that the star copolymer is a semiconducting material, having a conductivity of 0.7 S cm-1, in comparison to the 1.5 S cm-1 of PPy. To the best of my knowledge, these new star copolymers have not been reported in the open literature. Their properties make them potentially applicable for use in biosensors. / South Africa Conducting dendrimeric star copolymer Polypyrrole Poly(propylene imine) Dendrimer Poly(propylene imine)-co-polypyrrole Hall effect measurements Conductivity Electrical conductivity Electrochemical impedance spectroscopy Cyclic voltammetry Platinum electrode
223	The design of ultrasensitive immunosensors based on a new multi-signal amplification gold nanoparticles-dotted 4-nitrophenylazo functionalised graphene sensing platform for the determination of deoxynivalenol Sunday, Christopher Edozie January 2014 (has links) Philosophiae Doctor - PhD / A highly dispersive gold nanoparticle-dotted 4-nitrophenylazo functionalised graphene nanocomposite (AuNp/G/PhNO2) was successfully synthesised and applied in enhancing sensing platform signals. Three label-free electrochemical immunosensors for the detection of deoxynivalenol mycotoxin (DON) based on the systematic modification of glassy carbon electrodes (GCE) with AuNp/G/PhNO2 was effectively achieved. General electrochemical impedance method was employed for the sensitive and selective detection of DON in standard solutions and reference material samples. A significant increase in charge transfer resistance (Rct) of the sensing interface was observed due to the formation of insulating immune-complexes by the binding of deoxynivalenol antibody (DONab) and deoxynivalenol antigen (DONag). Further attachments of DONab and DONag resulted in increases in the obtained Rct values, and the increases were linearly proportional to the concentration of DONag. The three immunosensors denoted as GCE/PDMA/AuNp/G/PhNH2/DONab, GCE/Nafion/[Ru(bpy)3]2+/AuNp/G/PhNH2/DONab and GCE/Nafion/[Ru(bpy)3]2+/G/PhNH2/DONab have detection range of 6 – 30 ng/mL for DONag in standard samples. Their sensitivity and detection limits were 43.45 ΩL/ng and 1.1 pg/L; 32.14ΩL/ng and 0.3 pg/L; 9.412 ΩL/ng and 1.1 pg/L respectively. This result was better than those reported in the literature and compares reasonably with Enzyme Linked Immunosorbent Assay (ELISA) results. The present sensing methodology represents an attractive alternative to the existing methods for the detection of deoxynivalenol mycotoxin and other big biomolecules of interest due to its simplicity, stability, sensitivity, reproducibility, selectivity, and inexpensive instrumentation. And they could be used to develop high-performance, ultra-sensitive electrochemiluminescence, voltammetric or amperometric sensors as well. Deoxynivalenol mycotoxin Graphene 4-nitrophenyl diazonium cation Gold nanoparticle UV-Vis spectroscopy Raman spectroscopy Cyclic voltammetry Electrochemical impedance spectroscopy Electrochemiluminescence Chronoamperometry/Chronocoulometry
224	Palladium telluride quantum dots biosensor for the determination of indinavir drug Feleni, Usisipho January 2013 (has links) Magister Scientiae - MSc / Indinavir is a potent and well tolerated protease inhibitor drug used as a component of the highly active antiretroviral therapy (HAART) of HIV/AIDS, which results in pharmacokinetics that may be favourable or adverse. These drugs work by maintaining a plasma concentration that is sufficient to inhibit viral replication and thereby suppressing a patient’s viral load. A number of antiretroviral drugs, including indinavir, undergo metabolism that is catalysed by cytochrome P450-3A4 enzyme found in the human liver microsomes. The rate of drug metabolism influences a patient’s response to treatment as well as drug interactions that may lead to life-threatening toxic conditions, such as haemolytic anaemia, kidney failure and liver problems. Therapeutic drug monitoring (TDM) during HIV/AIDS treatment has been suggested to have a potential to reduce drug toxicity and optimise individual therapy. A fast and reliable detection technique, such as biosensing, is therefore necessary for the determination of a patient’s metabolic profile for indinavir and for appropriate dosing of the drugs. In this study biosensors developed for the determination of ARV drugs comprised of cysteamine self-assembled on a gold electrode, on which was attached 3-mercaptopropionic acid-capped palladium telluride (3-MPA-PdTe) or thioglycolic acid-capped palladium telluride (TGA-PdTe) quantum dots that are cross-linked to cytochrome P450-3A4 (CYP3A4) in the presence of 1-ethyl-3(3-dimethylaminopropyl) carbodiimide hydrochloride and N-hydroxysuccinimide. The quantum dots were synthesized in the presence of capping agents (3-MPA or TGA) to improve their stability, solubility and biocompatibility. The capping of PdTe quantum dots with TGA or 3-MPA was confirmed by FTIR, where the SH group absorption band disappeared from the spectra of 3-MPA-PdTe and TGA-PdTe. The particle size of the quantum dots (< 5 nm) was estimated from high resolution transmission electron microscopy (HRTEM) measurements. Optical properties of the materials were confirmed by UV-Vis spectrophotometry which produced absorption iii bands at ~320 nm that corresponded to energy band gap values of 3 eV (3.87 eV) for TGAPdTe (3-MPA-PdTe) quantum dots. The electrocatalytic properties of the quantum dots biosensor systems were studied by cyclic voltammetry (CV) for which the characteristic reduction peak at 0.75 V was used to detect the response of the biosensor to indinavir. Results for indinavir biosensor constructed with 3-MPA-SnSe quantum dots are also reported in this thesis. The three biosensors systems were very sensitive towards indinavir; and gave low limits of detection (LOD) values of 3.22, 4.3 and 6.2 ng/mL for 3-MPA-SnSe, 3-MPA-PdTe and TGA-PdTe quantum dots biosensors, respectively. The LOD values are within the ‘maximum plasma concentration’ (Cmax) value of indinavir (5 - 15 ng/mL) normally observed 8 h after drug intake. Indinavir drug Cytochrome P450-3A4 (CYP3A4) Quantum dots Self-assembled monolayers Biosensors Cyclic voltammetry Limit of detection (LOD) Therapeutic drug monitoring (TDM)
225	Synthesis and electrochemical characterisation of conducting polyaniline-fly ash matrix composites Mavundla, Sipho Enos January 2005 (has links) >Magister Scientiae - MSc / The aim of this study was to produce useful composite materials from fly ash, a major waste product of coal combustion from power plants. Polyaniline-fly ash (PANI-FA) composites were prepared by in situ polymerisation of aniline in the presence of Fly Ash (FA) by two slightly different methods. In one case polystyrene sulphonic acid (PSSA) was used as a stabilizer and in another case the starting materials (aniline and FA) were aged before oxidation. The aging procedure formed nanotubes that have cross-sectional diameters of 50-110 nm. The other procedure produced nanotubes with a diameter of 100-500 nm and the length of up to 10μm. The presence of metal oxides and silica in FA were responsible for the formation of nanorods in PANI-PSSA-FA.. The formation of the composites was confirmed by UV-Vis and FTIR. The UV-Vis showed maximum absorbance at 330-360 nm ( due to π-π* transition of benzoid rings) and 600-650 nm(due to charge transfer excitons of quinoid rings), which are characteristics of emaraldine base. The electrochemical analysis of the composites showed that the composites were conductive and electroactive. The Cyclic Voltammetry of PANI-PSSA-FA showed three redox couples which are characteristics of sulphonated PANI. The morphology of the composites was studied by Scanning Electron Microscopy (SEM) and showed that our methods gave composites with improved homogeneity as compared to other reported methods. Thermo Gravimetric analysis (TGA) showed that the presence of FA in the composites improves the thermal stability of the composites by up to 100 0C. Composite materials Fly ash Coal combustion Power plants Power plants Polyaniline-fly ash (PANI-FA)composites Cyclic voltammetry Scanning electron microscopy
226	Liquid-liquid interface ion-transfer amperometric sensors for tenofovir as a model nucleoside/nucleotide anti-retroviral drug Hamid, Sara Hamid Ibrahim January 2014 (has links) >Magister Scientiae - MSc / Amperometric sensors for Tenofovir, a model nucleotide/ nucleoside reverse transcriptase inhibitor ARV drug, were studied based on the principle of ion-transfer electrochemistry at the membrane-stabilized oil/ water interface (O\|\|W) in a four-electrode cell set-up. Solutions of the hydrophobic salts tetradodecylammonium tetrakis(4-chlorophenyl) borate (ETH500), ethyl violet tetraphenylborate (EthVTPB), tetrabutylammonium tetraphenylborate (TBATPB), tetraphenylphosphnium tetraphenylborate (TPphTPB) and three ionic liquids (Methyltrioctylammonium bis(trifluoromethyl sulfonyl)imide (IL1), 1-butyl-3- methylimdazolium bis(trifluoromethyl sulfonyl)imide (IL3) and 1-propyl-3- methylimdazolium bis(trifluoromethylsulfonyl)imide (IL4)) in nitrobenzene (NB), 1,2- dichloroethane (DCE), and 2-nitrophenyloctyl ether (NPOE) were each tested as O-phases. The cyclic voltammograms of the resulting O\|\|W interfaces in aq. Li2SO4 or aq. MgSO4 were compared with respect to noise, potential window, and other parameters. The three ILs were also tested as self-sufficient salts without a solvent medium. In the end, the ETH500/ DCE salt/ solvent pair was found to yield the best behaved polarizable O\|\|W interface in aq. MgSO4. The analytical characteristics of the resulting sensors to tenofovir without (Ag\|ETH500/DCE\|\|) and with the dibenzo-18-crown-6 (Ag\|ETH5000/DB18C6/DCE\|\| in the O-phase were studied with respect to the two pairs of peaks in the CV, namely the WO ion transfer peak and the reverse OW peak. Both sensors exhibited operational stability of 90 min. After consideration of reasonable S/N ratio and sample throughput rates, the scan rate of 25 mV/ s was used in subsequent signal interrogation with CV. The final potential windows were 0.95 V wide for Ag\|ETH500 (10 mM)/ DCE\|\| in aq. MgSO4 (50 mM) and 0.70 V wide for Ag\|ETH500 (10 mM)/ DB18C6 (50 mM)/ DCE\|\| in aq. MgSO4 (50 mM). From plots of peak currents versus square of scan rate, tenofovir diffusion coefficients of about 2.48 × 10-11 cm2/ s were estimated, which indicated diffusion through the supporting membrane as the rate limiting process. Based on WO ion transfer peaks, the first one exhibited a detection limit of about 5 M, a linear range of 15 – 100 M, and sensitivity of 7.09 nA M-1 towards tenofovir, whereas for the second one these were respectively 3 M, 6.32 nA M-1, and 9 – 100 M. In this way, a four-electrode amperometric detection of ion transfer process at liquid \| liquid interface, both under simple and ionophore-facilitated mode, has been demonstrated as promising for analysis of tenofovir as a representative of the nucleotide/ nucleoside reverse transcriptase inhibitor ARV drugs Nucleoside anti-retroviral drugs Nucleotide anti-retroviral drugs Tenofovir sensor Dibenzo-18-crown-6 1, 2 Dichloroethane Cyclic voltammetry
227	Potencialidades eletroanalíticas de complexos binucleares de nitroprussiato de metais de transição suportado em 3-aminopropil sílica Sá, Acelino Cardoso de [UNESP] 26 January 2010 (has links) (PDF) Made available in DSpace on 2014-06-11T19:25:32Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-01-26Bitstream added on 2014-06-13T19:12:22Z : No. of bitstreams: 1 sa_ac_me_ilha.pdf: 1061286 bytes, checksum: b370fdf160f4689709efe584af803c2a (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O objetivo deste trabalho esta resumido através de três etapas. 1 - A primeira etapa consistiu em funcionalizar e caracterizar a sílica gel com grupos 3- aminopropiltrietoxisilano. Nesta etapa o material obtido (Si) foi caracterizado por técnicas de Ressonância Magnética Nuclear no estado sólido (24Si e 13C) e espectroscopia vibracional (FTIR). 2- Numa segunda etapa promoveu-se a adsorção de íons de cobre (II) e de cobalto (II) na superfície da sílica (Si). Os materiais obtidos (SiCu e SiCo) foram caracterizados por espectroscopia vibracional e voltametria cíclica. 3- Na terceira etapa reagiu-se os materiais preparados (SiCu e SiCo) com nitroprussiato de sódio para formar os complexos binucleares (SiCuNP e SiCoNP). Estes materiais também foram caracterizados por espectroscopia vibracional e voltametria cíclica. Estes materiais foram utilizados na construção do eletrodo de pasta de grafite e testados na oxidação eletrocatalítica de substâncias biologicamente importantes tais como a hidrazina e N-acetilcisteína sendo empregado para isto a técnica de voltametria cíclica. Observou-se que o eletrodo de SiCuNP apresentam dois pares redox nos potenciais (Em)1 = 0,34 V e (Em)2 = 0,76 V vs Ag/AgCl, O primeiro foi atribuído ao processo de oxidação do par Cu(I)/Cu(II) e o segundo ao processo de oxidação Fe(II)(CN)5NO / Fe(III)(CN)5NO do complexo binuclear. O sistema SiCoNP foram observados dois pares redox distintos com os seguintes potenciais médios (Em); (Em)1 = 0,29 V e (Em)2 = 0,56 V vs Ag/AgCl, o primeiro foi atribuído ao processo redox do par Co(II)/Co(III) e o segundo ao processo redox Fe(II)(CN)5NO / Fe(III)(CN)5NO do complexo binuclear formado. O sistema SiCuNP foi sensível a concentração de hidrazina apresentando um limite de detecção e sensibilidade amperométrica de 3,07×10-4 mol L-1 e 5,84×10-6 A / mol L-1... / The objective of this work is summarized in three stages. 1 - The first stage functionalizes and characterizes the silica gel with 3-aminopropyltriethoxysilane groups. At this stage the material obtained (Si) was characterized by solid state Nuclear Magnetic Resonance techniques (24Si and 13C) and vibrational spectroscopy (FTIR). 2 - The second stage promotes the adsorption of copper (II) and cobalt (II) ions on the surface of the silica (Si). The materials obtained (SiCu and SiCo) were characterized by vibrational spectroscopy and cyclic voltammetry. 3 - The third stage prepares the reaction of the materials (SiCu and SiCo) with sodium nitroprusside to form the binuclear complex (SiCuNP and SiCoNP). These materials were characterized by vibrational spectroscopy and cyclic voltammetry. These materials were used to construct the electrode carbon paste and were tested for electrocatalytic oxidation of biologically important substances such as hydrazine and N-acetylcysteine using the cyclic voltammetry technique. It was observed that the electrode SiCuNP has two redox pairs in the potential (Em)1 = 0.34 V and (Em)2 = 0.76 V vs. Ag/AgCl, the first was attributed to the oxidation process of the pair Cu(I)/Cu(II) and the second to the oxidation process Fe(II)(CN)5NO / Fe(III)(CN)5NO of the binuclear complex. For the SiCoNP system, two distinct redox couples were observed with the following mean potentials (Em); (Em)1 = 0.29 V and (Em)2 = 0.56 V vs Ag/AgCl, the first one was assigned to the redox process of the Co(II)/Co(III) pair and the second one to the redox process Fe(II)(CN)5NO / Fe(III)(CN)5NO of the binuclear complex formed. The SiCuNP system was sensitive to the hydrazine concentration, exhibiting a detection limit and amperometric sensitivity of 3.07×10-4 mol L-1 and 5.84×10-6 A / mol L-1 respectively and was also... (Summary complete electronic access click below) 3-aminopropiltrietoxisilano Nitroprussiato de cobre Nitroprussiato de cobalto Eletrodo quimicamente modificado 3-aminopropyltriethoxysilane Copper nitroprusside Cobalt nitroprusside Hydrazine, N-acetylcysteine Cyclic voltammetry Chemically modified electrode
228	Preparação, caracterização e aplicações eletroanalíticas de silsesquioxanos e dendrímeros modificados suportados na superfície da sílica gel Gabriel Junior, Suelino [UNESP] 01 October 2010 (has links) (PDF) Made available in DSpace on 2014-06-11T19:25:32Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-10-01Bitstream added on 2014-06-13T20:14:08Z : No. of bitstreams: 1 gabrieljunior_s_me_ilha.pdf: 1458989 bytes, checksum: 61fbe8b93b56e59134558e478f7ab91e (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / O presente trabalho descreve a preparação, caracterização e as aplicações eletroanalíticas de silsesquioxanos e dendrímeros modificados suportados na superfície da sílica gel. A primeira etapa consistiu em ancorar o silsesquioxano ([H2N(CH2)3]8Si8O12) e o dendrímero Hexadecaamino Poli(propileno)imina (DAB-Am- 16) na superfície da 3-cloropropil sílica gel. Os materiais obtidos, SAC e SD, respectivamente, foram caracterizados pelas técnicas de Infravermelho (FTIR), RMN 29Si e 13C no estado sólido e Energia Dispersiva de Raios-X (EDX). A segunda etapa foi interagir o SAC e o SD com íons de Cu2+ e Ni2+ e posterior complexação com substâncias eletroativas, tais como: ferricianeto de potássio e nitroprussiato de sódio formando, dessa forma, os complexos binucleares: CuHCFSAC, NiHCFSAC, CuNPSAC, CuHCFSD, NiHCFSD e CuNPSD que foram caracterizados por Infravermelho (FTIR) e voltametria cíclica (VC). Os espectros na região do Infravermelho dos materiais supracitados exibiram freqüências próximas ou iguais a 2090 cm-1, atribuídas ao estiramento n(C N) característico do hexacianoferrato e nitroprussiato formados na superfície da SAC e SD. Utilizou-se estes materiais na construção do eletrodo de pasta de grafite os quais foram testados na oxidação eletrocatalítica de substâncias biologicamente importantes tais como a dipirona sódica e nitrito de sódio após um rigoroso estudo sobre o comportamento voltamétrico. O eletrodo de pasta de grafite contendo o CuHCFSAC exibiu dois pares redox com potenciais médios (Em) de: (Em)1= 0,29 V e (Em)2= 0,72 V vs Ag/AgCl (KCl =1.0 molL-1; v = 20 mV s-1) ambos atribuídos aos processos redox Cu(I)/Cu(II) e [Fe(II)(CN)6]4- / [Fe(III)(CN)6]3-, respectivamente, valores estes bem próximos para o CuHCFSD. Os eletrodos de NiHCFSAC e NiHCFSD exibiram... / This work describes the preparation, characterization and electroanalytical properties of modified silsesquioxanes and dendrimers supported onto the silica gel surface. The first step was to anchor the silsesquioxane [(H2N(CH2)3] 8Si8O12) and dendrimer Hexadecaamino Poly(propylene)imine (DAB-Am-16) onto the 3-chloropropyl silica gel surface. The materials obtained, SAC and SD, respectively, were characterized by infrared (FTIR), 29Si NMR and 13C solid state and Energy Dispersive X-ray (EDX). The second step was interact the SAC and SD with Cu2+ and Ni2+ ions and subsequent complexation with electroactive substances, such as: ferricyanide of potassium and sodium nitroprusside forming binuclear complexes: CuHCFSAC, NiHCFSAC, CuNPSAC, CuHCFSD, NiHCFSD and CuNPSD which were characterized by Infrared (FTIR) and cyclic voltammetry (CV). The spectra in the infrared region of the above materials exhibited frequencies near or equal to 2090 cm-1 assigned to stretching n(C N) characteristic of nitroprusside and hexacyanoferrate formed onto the SD and SAC surface. We used these materials in the construction of carbon paste electrode which were tested in the electrocatalytic oxidation of biologically important substances such as sodium dipyrone and sodium nitrite after a rigorous study about voltammetric behavior. The graphite paste electrode containing CuHCFSAC exhibited two redox couples with midpoint potentials (Em) of: (Em)1 = 0.29 V and (Em)2 = 0.72 V vs. Ag/AgCl (KCl = 1.0 mol L-1, v = 20 mV s-1) both assigned to the redox processes Cu(I)/Cu(II) and [Fe(II)(CN)6]4- / [Fe(III)(CN)6]-3, respectively, values very near to the CuHCFSD. The electrodes of NiHCFSAC and NiHCFSD each exhibited two redox couples with midpoint potentials (Em): (Em)1 = 0.29 V and (Em)2 = 0.51 V vs Ag/AgCl (KCl = 1.0 mol L-1, v = 20 mV s- 1) both... (Summary complete electronic access click below) Materiais nanoestruturados Silica gel Voltametria cíclica Octa(3-aminopropyl)octasilsesquioxane DAB-Am-16 dendrimer 3-cloropropyl silica gel Chemically modified electrodes Cyclic voltammetry
229	Desenvolvimento de sensores voltamétricos e piezelétricos modificados quimicamente com cucurbiturilas para análises de cocaína em amostras de interesse forense / Development of voltammetric and piezoelectric sensors chemically modified with cucurbiturils for analysis of cocaine in samples of forensic interest. Matheus Manoel Teles de Menezes 14 November 2014 (has links) Considerando a relevância dos trabalhos onde se utiliza eletrodos quimicamente modificados e o pequeno número de estudos envolvendo cocaína e seus interferentes (cafeína, teobromina e lidocaína), por técnicas eletroquímicas ou piezelétricas, este estudo tem como objetivo o desenvolvimento de eletrodos de ouro e platina quimicamente modificados com compostos da classe das cucurbiturilas (CB[5], CB[6] e CB[7]) para a detecção de cocaína. A técnica de microbalança de cristal de quartzo foi empregada a fim de se estudar cocaína padrão e seus interferentes, em fase gasosa. Os eletrodos de ouro foram quimicamente modificados com cucurbiturilas e o modificador CB[6] apresentou os melhores resultados. Medidas por voltametria cíclica foram realizadas utilizando-se um potenciostato Autolab III acoplado a um computador, com eletrodo de ouro e platina atuando como eletrodo de trabalho, Ag/AgCl como eletrodo de referência e eletrodo espiral de platina como eletrodo auxiliar, com velocidade de varredura de 0,1 V.s-1 (100 mV.s-1). Os parâmetros voltamétricos foram otimizados para tornar as análises mais rápidas e sensíveis sem perda de qualidade ou intensidade do sinal voltamétrico. O eletrodo de platina quimicamente modificado com filme de cucurbit[6]urila apresentou aumento da corrente de pico catódica quando estudado frente à cocaína, teobromina e lidocaína. Análises com eletrodo de platina sem modificador químico apresentaram limite de detecção de 4,14.10-6 mol.L-1 e limite de quantificação de 1,38.10-5 mol.L-1 , para a cocaína, e na presença do modificador químico CB[6] apresentou limite de detecção de 1,36.10-6 mol.L-1 e limite de quantificação de 4,54.10-6 mol.L-1 . Eletrodos de ouro com ou sem a presença de modificadores químicos não apresentaram sinal para nenhum analito. / Considering the importance of chemically modified electrodes and the small amount of the cocaine study and their interfering (caffeine, theobromine and lidocaine) using electrochemical and piezoelectric techniques, this study aims to investigate the development of the gold and platinum electrodes chemically modified by cucurbiturils (CB[5], CB[6] and, CB[7]) in order to detect cocaine. The Quartz Crystal Microbalance technique was employed in order to study in gas phase the standard samples of cocaine and their interfering. Gold electrode was chemically modified with cucurbiturils films and the CB[6] modifier showed the best results. The cyclic voltammetric measurements were performed using a Autolab III potentiostat coupled to a computer, being gold and platinum as the working electrode, Ag/AgCl as the reference electrode and platinum wire as counter electrode, using a scan rate of 0,1 V.s-1 (100 mV.s-1). The voltammetric parameters were optimized in order to make the analysis faster and more sensitive without loss of intensity and quality of the voltammetric signal. The platinum electrode modified by cucurbit[6]uril film showed an increase of cathodic current peak when electrode was exposed to cocaine, theobromine and lidocaine. Analysis employed platinum working electrode without chemical modifier showed a detection limit of 4.14 . 10-6 mol.L-1 and quantification limit of 1.38 . 10-5 mol.L-1 for cocaine and with chemical modifier CB[6] showed a detection limit of 1.36 . 10-6 mol.L-1 and quantification limit of 4.54 . 10-6 mol.L-1 . Gold electrodes with or without chemical modifiers showed no response for any analyte. cocaína eletrodos quimicamente modificados microbalança de cristal de quartzo química forense voltametria cíclica chemically modified electrodes cocaine cyclic voltammetry forensic chemistry quartz crystal microbalance
230	Eletrodos modificados pela codeposição eletroquímica de metais e óxidos de molibdênio: estrutura, composição e propriedades / Electrodes modified by the electrochemical codeposition of metals and molybdenum oxides: Structure, composition and properties Luís Kosminsky 23 October 2003 (has links) Filmes de óxidos de molibdênio, com ou sem a inclusão de metais, foram eletroquimicamente depositados sobre eletrodos de carbono vítreo em solução de Mo(VI) com pH ajustado em 2,5 ou 3,0. Estes filmes foram caracterizados por Soft X-ray Spectroscopy (SXS), X-ray Diffraction (XRD) e Rutherford Backscattering Spectroscopy (RBS). A coordenação local dos sítios de Mo foram analizadas. As configurações estruturais locais do Mo foram avaliadas quando diferentes números de ciclos de potencial foram empregados na modificação dá superfície do eletrodo. Alguns metais (Pt, Pd, Rh e Cu) foram codepositados com as espécies de Mo e seu efeito nos materiais obtidos foi investigado. O grau de ocupação do orbital 4d do Mo foi examinado como um indicador da existência de interações entre o Mo e o metal codepositado. A incorporação de Pt no filme de óxidos na superfície de um eletrodo de ouro foi caracterizada por espectroscopia PIXE. O eletrodo modificado por óxidos de molibdênio foi estudado em faixas de potencial positivas frente à oxidação de nitrito (NO2-) e de óxido nítrico (NO). A relação entre a porosidade do filme e a presença de água em seus interstícios foi examinada e a capacidade de retenção de NO e NO2 foi também investigada. O eletrodo modificado foi usado como um sensor amperométrico em um sistema de injeção em fluxo (FIA) e o método foi empregado na determinação de nitrito em amostras de lingüiça. A oxidação de H2O2 foi investigada em superfície recoberta por filme de óxidos de Mo com Pt codepositada. O efeito do pH, do potencial e do tempo de pré-redução do filme de Pt e MoOx foi discutida. O comportamento eletroquímico dos filmes codepositados de Rh, Pd, Pt ou Cu e MoOx foi caracterizados comparativamente pela redução do iodato e pela oxidação do nitrito e do etanol nestes substratos. H4MogO26 foi empregado para preparar filmes contendo molibdênio e sua resposta eletroquímica foi comparada com as obtidas com o filme depositado por procedimento usual. O filme de óxidos de molibdênio foi usado com sucesso na imobilização de um complexos de Ru(III) na superfície de carbono vítreo. / Molybdenum oxide films with and without metal inclusion were electrochemically deposited on glassy carbon electrodes from Mo(VI) solutions at pH 2.5 or pH 3.0. These films were characterized by Soft X-ray Spectroscopy (SXS), X-ray Diffraction (XRD) and Rutherford Backscattering Spectroscopy (RBS). The local coordination of Mo sites was analyzed. The Mo local structure configurations were evaluated when different number of potential cycles were employed in the modification of the electrode surface. Some metaIs (Pt, Pd, Rh and Cu) were codeposited with the Mo species and their effect on the obtained material was investigated. The occupancy leveI of the 4d orbital of Mo was examined as an indicator of interactions between Mo and codeposited metals. The incorporation of Pt in the oxide film at a gold electrode surface was characterized by PlXE spectroscopy. The electrode modified by molybdenum oxides was studied at positive potential ranges for the oxidation of nitrite (NO2-) and nitric oxide (NO). The relationship between the porosity of the film and its water content was exarnined and the entrapment of NO and NO2 was also investigated. The modified electrode was used as an amperometric sensor in a flow injection configuration and the method was employed in the deterrnination of nitrite in sausage samples. The oxidation of H2O2 was investigated at surfaces covered by the Mo filrn with codeposited Pt. The effect of pH and potential and time of pre-reduction on the response of the film with Pt was discussed. The electrochemical behaviour of codeposited films of Rh, Pd, Pt or Cu and Mo MoOx was characterized comparatively for the reduction of iodate and the oxidation of nitrite and ethanol. 4MogO26 was also employed to prepare films containing molybdenum and their electrochemical responses were compared with those obtained by using the film electrodeposited by the usual procedure. The molybdenum oxide film was successfully used for the immobilization of Ru(III) complex at glassy carbon surfaces. Eletroanálise (Aplicações) Química eletroanalítica Voltametria (Aplicações) Voltametria cíclica (Aplicações) Chemical Analysis) Cyclic voltammetry (Applications) Electroanalysis (Applications) Electroanalytical chemistry Electrochemical method (Applications Voltammetry (Applications)

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