Global ETD Search

11	Desenvolvimento e caracterização de eletrodos baseados em nanotubos de carbono de paredes múltiplas decorados com nanopartículas de ouro para detecção de NO / Development and characterization of electrodes based on multiwall carbon-nanotubes decorated with gold nanoparticle for detection of NO Jaqueline Pires Ruiz 21 January 2013 (has links) O óxido nítrico além de poluidor ambiental, também desempenha diversas funções no organismo, por exemplo, trata-se de uma molécula sinalizadora em diversos processos metabólicos. Por causa disso, a detecção de NO é uma importante ferramenta para a medicina. Assim, existe um significante interesse tanto da indústria como da medicina no desenvolvimento de novos materiais que possam detectar oxido nítrico Os Nanotubos de Carbono de Paredes Múltiplas, intensivamente explorados desde sua descoberta em 1991, são considerados promissores em diversas aplicações devido a sua estrutura única e a possibilidade de realizar modificações as quais influenciam suas propriedades físicas e químicas. Já o ouro, conhecido por sua baixa atividade catalíca quando utilizado na forma cristalina, começou a ter seu poder catalítico explorado a partir de 1985, quando descobriu-se que, se utilizado na forma de pequenas partículas, este comporta-se mais como átomos individuais e torna-se mais catalítico que o ouro cristalino. Assim, o objetivo deste trabalho foi promover a funcionalização dos nanotubos de carbono, o que pode ser confirmado por MEV, FTIR e RAMAN, e, a partir dos grupos funcionais gerados, ancorar nanoparticulas de ouro em suas paredes, a fim de otimizar as propriedades catalíticas do material. O material gerado foi caracterizado morfologicamente e estruturalmente por MEV-FEG, EDX, Raio-X, RAMAN e UV-vis. Já a caracterização eletroquímica foi feita por voltametria cíclica frente ao K4[Fe(CN)6], com o qual foi possível mostrar um aumento na densidade de corrente de pico, o deslocamento do potencial de pico para valores menos positivos e também a diminuição do sobrepotencial, quando comparados o sensor Náfion®/AuNP/MWCNT/GC com o Náfion®/GC, Náfion®/MWCNT/GC e Náfion®/Ouro. O eletrodo proposto foi utilizado na determinação de Óxido Nítrico, em tampão PBS pH 4,4, utilizando a técnica de voltametria de pulso diferencial. A metodologia proposta apresentou um limite de detecção de 2,4x10-10 mol L-1 e um limite de quantificação de 7,9x10-10 mol L-1. Assim, este trabalho mostrou a potencialidade de utilização do eletrodo Náfion®/AuNP/MWCNT/GC como sensor eletroquímico para detecção e quantificação de óxido nítrico. / Nitric oxide (NO) is an environmental polluter, which also plays several roles in the body, for example, as a signaling molecule for many metabolic processes. Because this, detecting NO is an important tool in medicine. As a result, there was significant interest in both industry and medicine in developing new materials that can detect NO. Multiwall carbon nanotubes, that have been intensively explored since its discovery in 1991, are considered promising in many applications due to its unique structure and because it can be easily modified in order to tuning their physical and chemical properties. But the interest in using gold as the catalytic material appeared only in 1985, when was discovered that small particles form of gold behaves as individual atoms and it are more catalytic that crystalline gold. In this way, the objectives of this study were promoted the functionalization of carbon nanotubes - which could be confirmed by SEM, FTIR, Raman - and, with the functional groups generated, anchoring gold nanoparticles in their walls, in order to improve the catalytic properties of such material. The developed material was morphologically and structurally characterized by FEG-SEM, EDX, X-ray, Raman and UV-vis. As well, the electrochemical characterization was performed by cyclic voltammetry in K4[Fe(CN)6] solution. When Nafion®/AuNP/MWCNT/GC sensor was compared with Náfion®/GC, Náfion®/MWCNT/GC and Náfion®/Gold, its show an increase in current density peak, the peak potential displacement to less positive values and also decreased potential difference between the cathodic and anodic peak. The proposed electrode was used in the determination of nitric oxide in PBS buffer pH 4.4, which showed a detection limit of 2,4x10-10 mol L-1 and a quantification limit of 7,9x10-10 mol L-1 using the differential pulse voltammetry. Thus, this study demonstrated the potential use of Nafion®/AuNP/MWCNT/GC electrode as an electrochemical sensor in the nitric oxide detection and quantification. nanopartículas de ouro nanotubos óxido nítrico sensor gold nanoparticle nanotube nitric oxide sensor
12	Interação da proteína albumina do soro bovino (BSA) com substratos sintéticos / Interaction of the protein bovine serum albumin (BSA) with synthetic substrates. Ferreira, Ernando Silva 19 February 2010 (has links) A interface formada por materiais biológicos e materiais sintéticos tem grande importância em aplicações biomédicas, tais como o desenvolvimento de biomateriais para implantes médicos, que tem como processo essencial a deposição de proteínas na superfície dos biomateriais, e ainda não é bem compreendido no nível molecular. Algumas proteínas sofrem mudanças conformacionais após a adsorção na interface sólido-líquido, afetando suas funções ou propriedades, e algumas técnicas podem medir mudanças conformacionais em interfaces sólido. É possível estudar a fluorescência intrínseca de proteínas: a posição do máximo na faixa espectral da fluorescência, a eficiência quântica e o tempo de vida de fluorescência são indicadores de mudanças no ambiente local de grupos de moléculas de proteína fluorescente. Por outro lado, Nanopartículas de ouro têm atraído muita atenção pela sua afinidade com materiais biológicos e suas propriedades ópticas. Nesta tese, estudamos a viabilidade de substratos de vidro, quartzo, mica e ITO (óxido de índio e estanho) modificado com quitosana, phtalocyanines (Ni, Fe e Ni) e poli(alilanina hidroclorada) (PAH) na adsorção de BSA em forma dos filmes produzidos pela técnica camada por camada. O sistema foi estudado por UV-Vis e espectroscopia de fluorescência estática e resolvida no tempo. A caracterização morfológica dos filmes foi realizada por microscopia de força atômica e microscopia óptica. Os resultados mostram que os filmes de BSA / HAP cresceram com eficiência quatro vezes maior do que os filmes feitos de quitosana, que o quartzo tem a melhor janela de trabalho de UV-vis e há uma relação entre o pH da BSA e o tempo vida de fluorescência do filme resultante. As nanopartículas de ouro foram produzidas pela redução química e estabilizada por quatro diferentes métodos. O crescimento das nanopartículas foi monitorado por UV-vis spectroscopy. A carga de superfície das nanopartículas e da BSA foi estimado em vários valores de pH por medidas de potencial zeta. Os resultados indicaram que as nanopartículas têm cargas negativas na faixa de pH estudada. Soluções de BSA foram preparadas em diferentes valores de pH, e levadas para interagir com as nanopartículas de ouro. Os dados de supressão de fluorescência da BSA mostraram uma maior afinidade da BSA com nanopartículas estabilizadas com sacarose, com pH próximo do ponto isoelétrico (IP) estimado para BSA. / The interface formed by biological materials and synthetic materials has great importance in biomedical applications such as the development of biomaterials for medical implants, which has as an essential process of protein adsorption on the surface of biomaterials, and is not yet well understood in the molecular level. Some proteins undergo conformational changes after adsorption at solid-liquid interfaces, affecting their functions or properties, and few techniques can measure conformational changes in solid interfaces. It is possible to study the intrinsic fluorescence of proteins: the position of the maximum in the spectral range of fluorescence, the quantum efficiency and lifetime of fluorescence are indicators of change in the local environment of fluorescent groups of protein molecules. On the other hand, gold nanopartículas have attracted much attention for its affinity with biological materials and their optical properties. In this thesis we study the feasibility of glass substrates, quartz, mica and ITO (Indium tin oxide) modified with chitosan, phtalocyanines (Ni, Fe and Ni) and poly (allylamine hydrochloride) (PAH) on the adsorption of BSA in the form of films produced by the layer by layer technique. The system was studied by UV-Vis and static and time-resolved fluorescence spectroscopy. Morphological characterization of the films was performed by atomic force microscopy and optical microscopy. The results indicate that the films of BSA/PAH grew with efficiency four times greater than the films made of chitosan, that the quartz has the best working window for UV-vis and there is a relationship between the pH of the BSA and lifetime of fluorescence of the resulting film. Gold nanoparticles were produced by chemical reduction and stabilized by four different methods. The growth of nanoparticles was monitored by UV-vis spectroscopy. The surface charge of nanoparticles and the BSA was estimated at various pH values by zeta potential measurements. The results indicated that the nanoparticles have negative charges in the pH range studied. BSA solutions were prepared at various pH values, were taken to interact with gold nanoparticles. Fluorescence quenching data of BSA showed a greater affinity of the BSA with nanoparticles stabilized with sucrose, at pH near the isoelectric point (IEP) estimated for BSA. Bovine serum albumin film LBL Filmes LBL fluorescence Fluorescência gold nanoparticle. Nanopartículas de ouro
13	Electrochemical impedance modelling of the reactivities of dendrimeric poly(propylene imine) DNA nanobiosensors. Arotiba, Omotayo Ademola. January 2008 (has links) <p>In this thesis, I present the electrochemical studies of three dendrimeric polypropylene imine (PPI) nanomaterials and their applications as a platform in the development of a novel label free DNA nanobiosensor based on electrochemical impedance spectroscopy. Cyclic voltammetry (CV), differentia pulse voltammetry (DPV), square wave voltammetry (SWV) and electrochemical impedance spectroscopy (EIS) techniques were used to study and model the electrochemical reactivities of the nanomaterials on glassy carbon electrode (GCE) as the working electrode.</p> Electrochemical DNA biosensor Poly(propylene imine) Dendrimer Metallodendrimer Gold nanoparticle Glassy Carbon Electrode Biosensor Nanobiosensor.
14	Electrochemical Promotion of Gold Nanoparticles Supported on Yttria-Stabilized Zirconia Kim, Jong Min 23 November 2011 (has links) The feasibility of highly dispersed gold nanocatalyst supported on yttria-stabilized zirconia (YSZ) for the model reactions of C2H4 and CO oxidation is demonstrated for the first time. Gold nanoparticles are synthesized on YSZ powder by chemical reduction of the precursor salt in the mixture of ethanol, water and polyvinylpyrrolidone (PVP). Resulting metal loading of the catalysts are 1 wt.% with average particle sizes ranging from 6 to 9 nm. Results of CO and C2H4 oxidation display catalytic activity at 65 0C and 25 0C for CO and C2H4 oxidation, respectively. The catalytic properties of the catalysts are different due to their average particle size. Electrochemical Promotion of Catalysis (EPOC) of C2H4 oxidation is demonstrated. Application of constant potential difference between two electrodes in the bipolar electrochemical cell led to increase in C2H4 conversion. A proposed mechanism explains the bipolar EPOC phenomenon through formation of O2- flux across the electrochemical cell, resulting in the change of Work Function of gold nanoparticles placed in between the electrodes and is electronically isolated. c2h4 oxidation electrochemical promotion epoc ethylene oxidation wireless nemca nanocatalyst gold nanoparticle ysz yttria stabilized zirconia
15	Synthesis And Characterization Of New Conducting Polymer- Nano Particle Composites Eroglu, Esra 01 January 2013 (has links) (PDF) In this study, conjugated monomers containing fluorene units / 2-(9,9-dihexyl-2-(thiophen-2-yl)-9H-fluoren-7-yl)thiophene (TFT) and 5-(9,9-dihexyl-2-(2,3-dihydrothieno[3,4-b][1,4]dioxin-5-yl)-9H-fluoren-7-yl)-2,3dihydrothieno[3,4b ][1,4] dioxine (EFE) were synthesized on the basis of donor-acceptor-donor approach and their electrochemical polymerization were achieved via potential cycling. Optical and electrochemical properties of their corresponding polymers, poly(2-(9,9-dihexyl-2-(thiophen-2-yl)-9H-fluoren-7-yl)thiophene) PTFT, and poly(5-(9,9-dihexyl-2-(2,3-dihydrothieno[3,4-b][1,4]dioxin-5-yl)-9H-fluoren-7-yl)-2,3dihydrothieno[3,4b ][1,4] dioxine) PEFE, were investigated and it was found that polymer films exhibited quasi-reversible redox behavior (Epox= 1.10 V for PTFT, Epox = 0.70 V and 1.00 V for PEFE) accompanied with a reversible electrochromic behavior, yellow to dark green for PTFT, yellow to parliament blue for PEFE. Their band gap values (Eg) were found to be 2.36 eV and 2.26 eV for PTFT and PEFE, respectively. Furthermore, gold nanoparticles (AuNP) were prepared and their interaction with polymer films, PTFT and PEFE, were investigated using spectroscopic techniques. The fluorescence properties of the polymers and their composites, prepared by the interaction of AuNP with polymers, were also investigated. QD Chemistry 1-999
16	Electrochemical Promotion of Gold Nanoparticles Supported on Yttria-Stabilized Zirconia Kim, Jong Min 23 November 2011 (has links) The feasibility of highly dispersed gold nanocatalyst supported on yttria-stabilized zirconia (YSZ) for the model reactions of C2H4 and CO oxidation is demonstrated for the first time. Gold nanoparticles are synthesized on YSZ powder by chemical reduction of the precursor salt in the mixture of ethanol, water and polyvinylpyrrolidone (PVP). Resulting metal loading of the catalysts are 1 wt.% with average particle sizes ranging from 6 to 9 nm. Results of CO and C2H4 oxidation display catalytic activity at 65 0C and 25 0C for CO and C2H4 oxidation, respectively. The catalytic properties of the catalysts are different due to their average particle size. Electrochemical Promotion of Catalysis (EPOC) of C2H4 oxidation is demonstrated. Application of constant potential difference between two electrodes in the bipolar electrochemical cell led to increase in C2H4 conversion. A proposed mechanism explains the bipolar EPOC phenomenon through formation of O2- flux across the electrochemical cell, resulting in the change of Work Function of gold nanoparticles placed in between the electrodes and is electronically isolated. c2h4 oxidation electrochemical promotion epoc ethylene oxidation wireless nemca nanocatalyst gold nanoparticle ysz yttria stabilized zirconia
17	Single Particle Studies on the Influence of the Environment on the Plasmonic Properties of Single and Assembled Gold Nanoparticles of Various Shapes Swanglap, Pattanawit 16 September 2013 (has links) Plasmonic nanoparticles and their assembly have the potential to serve as a platform in practical applications such as photonics, sensing, and nano-medicine. To use plasmonic nanoparticles in these applications, it is important to understand their optical properties and find methods to control their optical response. Using polarization-sensitive dark-field spectroscopy to study self-assembled nanoparticle rings on substrates with different permittivities I show that the interaction between collective plasmon resonances and the substrate can control the spatial scattering image. Using liquid crystals as an active medium that can be controlled with an external electric field I show that the Fano resonance of an asymmetric plasmonic assembly can be actively controlled utilizing the polarization change of scattered light passing through the liquid crystal device. Furthermore, utilizing the strong electromagnetic field enhancement of coupled plasmonic “nanospikes” on the surface of gold nanoshells with a silica core, I show the use of single spiky nanoshells as surface-enhanced Raman spectroscopy substrates. Individual spiky nanoshells give surprisingly reproducible surface-enhanced Raman spectroscopy intensities with a low standard deviation compared to clusters of nanoparticles. In summary, the work presented here provides understanding of the plasmonic response for assembled nanoparticles on different substrates, illustrated a new method to actively control the optical response of plasmonic nanoparticles, and characterizes spiky nanoshells as surface-enhanced Raman scattering platform.
18	The role of the plasmon resonance for enhanced optical forces Ploschner, Martin January 2012 (has links) Optical manipulation of nanoscale objects is studied with particular emphasis on the role of plasmon resonance for enhancement of optical forces. The thesis provides an introduction to plasmon resonance and its role in confinement of light to a sub-diffraction volume. The strong light confinement and related enhancement of optical forces is then theoretically studied for a special case of nanoantenna supporting plasmon resonances. The calculation of optical forces, based on the Maxwell stress tensor approach, reveals relatively weak optical forces for incident powers that are used in typical realisations of trapping with nanoantenna. The optical forces are so weak that other non-optical effects should be considered to explain the observed trapping. These effects include heating induced convection, thermoporesis and chemical binding. The thesis also studies the optical effects of plasmon resonances for a fundamentally different application - size-based optical sorting of gold nanoparticles. Here, the plasmon resonances are not utilised for sub-diffraction light confinement but rather for their ability to increase the apparent cross-section of the particles for their respective resonant sizes. Exploiting these resonances, we realise sorting in a system of two counter-propagating evanescent waves, each at different wavelength that selectively guide gold nanoparticles of different sizes in opposite directions. The method is experimentally demonstrated for bidirectional sorting of gold nanoparticles of either 150 or 130 nm in diameter from those of 100 nm in diameter within a mixture. We conclude the thesis with a numerical study of the optimal beam-shape for optical sorting applications. The developed theoretical framework, based on the force optical eigenmode method, is able to find an illumination of the back-focal plane of the objective such that the force difference between nanoparticles of various sizes in the sample plane is maximised. 500
19	Encapsulating lipid structures: preparation and application in biosensors, nanoparticles synthesis and controlled release Genç, Rükan 14 March 2011 (has links) L’auto-assemblatge de molècules en nano- i micro-estructures és una àrea de gran interès, sent els lípids particularment atractius en la formació de diverses estructures incloent els liposomes. Hi ha un gran número de mètodes reportats en la literatura per a la preparació de liposomes, però els inconvenients que limiten l’ús generalitzat dels liposomes són; els passos de preparació que requereixen de molt de temps donant lloc a poblacions heterogènies de liposomes de mida incontrolable, l’ús de solvents orgànics i la necessitat de passos per a reduir la mida dels liposomes. Per tant; l’objectiu d’aquest doctorat és la optimització d’un mètode ultra-ràpid per a la preparació de liposomes en un sol pas i lliure de dissolvents orgànics. Anomenat “Curvature tuned preparation method” ha estat implementat en diverses formulacions lipídiques per a la formació de liposomes i d’altres superestructures de lípids. Aquestes estructures s’han emprat en diverses aplicacions, com ara en nanoreactors i plantilles per a la síntesis a mida de nanopartícules d’or, liposomes per encapsular enzims com a potenciadors de senyal en el desenvolupament de immunosensors i finalment, com a vehicles per l’alliberament controlat de fàrmacs. / The self-assembly of molecules into nano- or microstructures is an area of intense interest, with lipids being particularly attractive in the formation several structures including liposomes. There are numerous methods reported for the preparation of liposomes, however, time-consuming preparative steps resulting in heterogeneous liposome populations of incontrollable size, the use of organic solvents and the need of further size-reducing steps are the drawbacks limiting wide-spread use of liposomes. Therefore; the main concern of this PhD thesis is optimization of a one-step, organic solvent-free, ultra rapid method for the preparation of liposomes. So called “Curvature tuned preparation method” was later implemented in several lipid formulations which resulted in liposomes and other lipid superstructures. Those structures were further used in several applications, such as nanoreactors and templates for tailored synthesis of gold nanoparticles, enzyme encapsulating liposomes as signal enhancers in immunosensor development, and finally as carriers for controlled release of drugs Liposomes nanostructures phospholipid biosensor gold nanoparticle synthesis nanoreactor 517 546 577 62
20	Electrochemical impedance modelling of the reactivities of dendrimeric poly(propylene imine) DNA nanobiosensors. Arotiba, Omotayo Ademola. January 2008 (has links) <p>In this thesis, I present the electrochemical studies of three dendrimeric polypropylene imine (PPI) nanomaterials and their applications as a platform in the development of a novel label free DNA nanobiosensor based on electrochemical impedance spectroscopy. Cyclic voltammetry (CV), differentia pulse voltammetry (DPV), square wave voltammetry (SWV) and electrochemical impedance spectroscopy (EIS) techniques were used to study and model the electrochemical reactivities of the nanomaterials on glassy carbon electrode (GCE) as the working electrode.</p> Electrochemical DNA biosensor Poly(propylene imine) Dendrimer Metallodendrimer Gold nanoparticle Glassy Carbon Electrode Biosensor Nanobiosensor.

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