Global ETD Search

111	Polyelectrolyte adsorption on oppositely charged surfaces - Conformation and adsorption kinetics Enarsson, Lars-Erik January 2006 (has links) <p>Denna avhandling presenterar experimentella studier av polyelektrolytadsorption på motsatt laddade ytor, där substrat av både kiseloxid och blekt barrsulfatmassa har använts. Ett huvudsakligt syfte med denna forskning var att karaktärisera konformationen hos adsorberade skikt av katjonisk polyakrylamid (CPAM) i jämförelse med katjonisk dextran (Cdextran) och relatera denna information till inbindningskapaciteten av kolloidal kiselsyra. Ett andra syfte i denna avhandling var att studera kinetiken för sekventiell adsorption av polyamidamin epiklorhydrin (PAE) och karboxymetyl cellulosa (CMC) på massafibrer och att bestämma adsorptionsisotermer för deponering av polyelektrolyter skikt för skikt på massafibrer.</p><p>Adsorptionen av CPAM på kiseloxidytor studeras med stagnationspunkts-reflektometri och kvartskristalls-mikrogravimetri för att bestämma adsorptionskinetiken och mättnadsadsorptionens beroende av polyelektrolytens laddningstäthet, pH och NaCl koncentration. Konformationen hos adsorberade skikt av CPAM och Cdextran bestämdes både före och efter sekundär tillsats av kolloidal kiselsyra (CS) och adsorptionen av CS kvantifierades också som funktion av yttäckningen av polyelektrolyt.</p><p>Resultaten indikerar att laddningstätheten hos CPAM kontrollerar den adsorberade mängden på kiseloxidytor vid låga NaCl koncentrationer. Både adsorptionen av CPAM och Cdextran på kiseloxid visades vara effektiv i NaCl koncentrationer upp till 1 M, vilket indikerar ett signifikant bidrag av icke-jonisk interaktion mellan polyelektrolyterna och kiseloxid. Adsorptionen av CS var högre på föradsorberad CPAM än Cdextran. Konformationen hos de adsorberade skikten efter tillsats av CS sågs expandera signifikant för skikt baserade på CPAM medan skikt av Cdextran vid låga salthalter verkade återta sin konformation efter en temporär expansion.</p><p>I den andra delen av avhandlingen studerades sekventiell adsorption av PAE och CMC på massafibrer. Adsorptionsisotermer skikt för skikt på avkryllad massa visade att PAE adsorberade i större mängd än CMC, både i hänseende av massa och laddning. Adsorptionen av PAE var signifikant långsammare än CMC och adsorptionstiden till 90% av mättnadsadsorptionen bestämdes till 3 respektive 1 minut. Zetapotentialen för kryll bestämdes för adsorption av de två första polyelektrolytskikten och resultaten tydde på att kryllmaterialet omladdade inom en minut efter tillsatserna av polyelektrolyt. Reflektometriförsök inom sekventiell adsorption av PAE och CMC på kiseloxid antydde att den låga molekylviktsfraktionen av PAE störde uppbyggnaden av polyelektrolyt-multiskikten.</p> / <p>This thesis presents experimental studies of polyelectrolyte adsorption on oppositely charged surfaces, where substrates of both silica and bleached softwood kraft pulp were used. A major aim of this research was to characterise the conformation of adsorbed layers of cationic polyacrylamide (CPAM), in comparison to cationic dextran (Cdextran), and relate this information to the binding capacity of colloidal silica. A second aim in this thesis was to study the kinetics of the sequential adsorption of polyamide epichlorohydrine (PAE) and carboxymethyl cellulose (CMC) on pulp fibres, and to determine the adsorption isotherms for the layer-by-layer deposition of polyelectrolytes on pulp fibres.</p><p>The adsorption of CPAM on silica surfaces was studied using stagnation point adsorption reflectometry and quartz crystal microgravimetry to determine its adsorption kinetics as well as the dependencies of polyelectrolyte charge densities, pH, and NaCl concentration on saturation adsorption. The conformation of adsorbed layers of CPAM and Cdextran, analysed in terms of amount of water and layer thickness, was determined both before and after the secondary adsorption of colloidal silica (CS), and the adsorption of CS was also quantified as a function of the surface coverage of the polyelectrolyte.</p><p>Results indicate that the charge density of CPAM controlled the amount of the polyelectrolyte adsorbed on silica surfaces at low NaCl concentrations. The adsorption of both CPAM and Cdextran on silica was shown to be effective at up to 1 M NaCl concentrations, which indicates that non-ionic interactions between the polyelectrolytes and silica contribute significantly. CS adsorption was higher on pre-adsorbed CPAM than on Cdextran. The conformation of the adsorbed layer after CS addition was seen to expand significantly in CPAM-based layers, while the Cdextran layer appeared to restore its conformation after a temporary expansion at low salt concentrations.</p><p>In the second part of the thesis, the sequential adsorption of PAE and CMC on pulp fibres was determined using the polyelectrolyte titration technique. Layer-by-layer adsorption isotherms derived on fractionated pulp showed that PAE adsorbed in higher amounts than CMC did, both in terms of adsorbed mass and adsorbed charge. The adsorption of PAE was significantly slower compared to CMC, and the adsorption times required to reach 90% of the saturation adsorption were 3 and 1 min, respectively. The zeta potential of pulp fines was determined for the adsorption of the two first polyelectrolyte layers, and data indicated that the fines recharge within one minute after the polyelectrolyte additions. Reflectometry experiments regarding the sequential adsorption of PAE and CMC on silica indicated that the low-molecular-weight fraction of PAE disturbed the formation of polyelectrolyte multilayers.</p> Polyelectrolyte adsorption adsorption kinetics adsorption isotherms conformation bridging quartz crystal microgravimetry polyelectrolyte titration cationic polyacrylamide cationic dextran colloidal silica silica surfaces pulp Chemistry Kemi
112	Dynamische Strukturen am Zellcortex: Aktivierbarkeit und Akkumulation von Ezrin in Abhängigkeit von PIP2 / Dynamic structures at the cell cortex: activation and accumulation of ezrin depending on PIP2 Bosk, Sabine 18 March 2011 (has links) No description available. 500 Naturwissenschaften Chemistry Ezrin PIP2 F-Aktin Cytoskelett Quarzmikrowaage Fluoreszenzmikroskopie Ezrin PIP2 F-actin cytoskeleton quartz crystal microbalance fluorescence microscopy Chemie SX 000: Biochemie
113	Physicochemical properties and microencapsulation process development for fish oil using supercritical carbon dioxide Seifried, Bernhard Unknown Date No description available. supercritical carbon dioxide fish oil microencapsulation density interfacial tension viscosity gas expanded ethanol particle formation beta glucan gum arabic quartz crystal microbalance
114	Development of Electroacoustic Sensors for Biomolecular Interaction Analysis Anderson, Henrik January 2009 (has links) Biomolecular interaction analysis to determine the kinetics and affinity between interacting partners is important for the fundamental understanding of biology, as well as for the development of new pharmaceutical substances. A quartz crystal microbalance instrument suitable for kinetics and affinity analyses of interaction events was developed. The functionality of the sensor system was demonstrated by development of an assay for relative affinity determination of lectin-carbohydrate interactions. Sensor surfaces allowing for effective immobilization of one interacting partner is a key functionality of a biosensor. Here, three different surfaces and immobilization methods were studied. First, optimized preparation conditions for sensor surfaces based on carboxyl-terminated self assembled monolayers were developed and were demonstrated to provide highly functional biosensor surfaces with low non-specific binding. Second, a method allowing for immobilization of very acidic biomolecules based on the use of an electric field was developed and evaluated. The electric field made it possible to immobilize the highly acidic C-peptide on a carboxylated surface. Third, a method for antibody immobilization on a carboxyl surface was optimized and the influence of immobilization pH on the immobilization level and antigen binding capacity was thoroughly assessed. The method showed high reproducibility for a set of antibodies and allowed for antibody immobilization also at low pH. Three broadly different strategies to increase the sensitivity of electroacoustic sensors were explored. A QCM sensor with small resonator electrodes and reduced flow cell dimensions was demonstrated to improve the mass transport rate to the sensor surface. The use of polymers on QCM sensor surfaces to enhance the sensor response was shown to increase the response of an antibody-antigen model system more than ten-fold. Moreover, the application of high frequency thin film bulk acoustic resonators for biosensing was evaluated with respect to sensing range from the surface. The linear detection range of the thin film resonator was determined to be more than sufficient for biosensor applications involving, for instance, antibody-antigen interactions. Finally, a setup for combined frequency and resistance measurements was developed and was found to provide time resolved data suitable for kinetics determination. / wisenet biosensor protein interactions kinetics affinity QCM quartz crystal microbalance piezoelectric resonators dissipation motional resistance Bioanalytical engineering Bioanalytisk teknik Analytical chemistry Analytisk kemi
115	In situ Charakterisierung der viskoelastischen und elektrochemischen Eigenschaften von Poly(3,4-ethylendioxythiophen) Peipmann, Ralf 29 February 2012 (has links) (PDF) Poly(3,4-ethylendioxythiophen) (PEDOT) ist ein Kunststoff der zur Gruppe der intrinsisch leitfähigen Polymere (ILP) zählt. Aufgrund seiner chemischen und thermischen Stabilität findet er Verwendung in antistatischen Verkleidungen und als Elektrodenmaterial. PEDOT (und andere ILP) zeigen aufgrund ihrer Schaltbarkeit zwischen (reduzierten, ) neutralen und oxidierten Zuständen unterschiedliche Eigenschaften wie Leitfähigkeit, Farbe oder Viskoelastizität. Im Rahmen dieser Arbeit wurden die elektrochemischen und viskoelastischen Eigenschaften von PEDOT-Filmen untersucht. Dabei wurde die Quarzmikrowaage (QCM) in Verbindung mit potentiostatischen (Potentialsprung, PS) und potentiodynamischen (Cyclovoltammetrie, CV) elektrochemischen Methoden verwendet, so dass in situ elektrochemische und mechanische Eigenschaften der Filme zugänglich waren. Zur Bestimmung der viskoelastischen Eigenschaften wurde ein Auswertealgorithmus entwickelt, welcher auf ein mathematisches Modell zur Bestimmung des Schermoduls nach Efimov zurückgreift. Während der Herstellung wurden Parameter wie Lösungsmittel, Leitsalz, Vorpolarisations- und Abscheidungspotential variiert und die erhaltenen Filme bezüglich Schermodul und Morphologie charakterisiert. Es konnte gezeigt werden, dass die Elektrolytzusammensetzung einen entscheidenden Einfluss auf die viskoelastischen Eigenschaften der Filme besitzt, welche mit der Morphologie der Filme korrelieren. Des Weiteren wurden die Änderungen der viskoelastischen Eigenschaften dieser Filme untersucht, welche während dem elektronischen Schalten zwischen neutralem und oxidiertem Zustand aufgrund des Ionenaustausches erfolgen. CV- und PS-Experimente zeigten, dass die viskoelastischen Eigenschaften durch Konzentration und pH-Wert des Elektrolyten beeinflusst werden und in unterschiedlicher Weise auf die Potentialänderungen reagieren. Durch den Einbau von Magnetit-Partikeln in die Schichten konnten Hybridfilme erhalten werden, deren Eigenschaften durch das Anlegen eines äußeren Magnetfeldes beeinflusst werden können. Solche Filme zeigten in einem äußeren Magnetfeld (0,7T) höhere Schermodule und einen stark unterdrückten Ionenaustausch. Poly(3 4-ethylendioxythiophen) PEDOT Quarzmikrowaage QCM Schermodul Viskoelastizität poly(3 4-ethylenedioxythiophene) PEDOT quartz crystal microbalance QCM shear modulus viskoelasticity ddc:541 rvk:VE 5807
116	Microfluidic-Based In-Situ Functionalization for Detection of Proteins in Heterogeneous Immunoassays Asiaei, Sasan January 2013 (has links) One the most daunting technical challenges in the realization of biosensors is functionalizing transducing surfaces for the detection of biomolecules. Functionalization is defined as the formation of a bio-compatible interface on the transducing surfaces of bio-chemical sensors for immobilizing and subsequent sensing of biomolecules. The kinetics of functionalization reactions is a particularly important issue, since conventional functionalization protocols are associated with lengthy process times, from hours to days. The objective of this thesis is the improvement of the functionalization protocols and their kinetics for biosensing applications. This objective is realized via modeling and experimental verification of novel functionalization techniques in microfluidic environments. The improved functionalization protocols using microfluidic environments enable in-situ functionalization, which reduces the processing times and the amount of reagents consumed, compared to conventional methods. The functionalization is performed using self-assembled monolayers (SAMs) of thiols. The thiols are organic compounds with a sulphur group that assists in the chemisorption of the thiol to the surface of metals like gold. The two reactions in the functionalization process examined in this thesis are the SAM formation and the SAM/probe molecule conjugation. SAM/probe molecule conjugation is the chemical treatment of the SAM followed by the binding of the probe molecule to the SAM. In general, the probe molecule is selective in binding with a given biomolecule, called the target molecule. Within this thesis, the probe molecule is an antibody and the target molecule is an antigen. The kinetics of the reaction between the probe (antibody) and the target biomolecule (antigen) is also studied. The reaction between an antigen and its antibody is called the immunoreaction. The biosensing technique that utilizes the immunoreaction is immunoassay. A numerical model is constructed using the finite element method (FEM), and is used to study the kinetics of the functionalization reactions. The aim of the kinetic studies is to achieve both minimal process times and reagents consumption. The impact of several important parameters on the kinetics of the reactions is investigated, and the trends observed are explained using kinetic descriptive dimensionless numbers, such as the Damköhler number and the Peclet number. Careful numerical modeling of the reactions contributes to a number of findings. A considerably faster than conventional SAM formation protocol is predicted. This fast-SAM protocol is capable of reducing the process times from the conventional 24-hours to 15 minutes. The numerical simulations also predict that conventional conjugation protocols result in the overexposure of the SAM and the probe molecule to the conjugation reagents. This overexposure consequently lowers conjugation efficiencies. The immunoreaction kinetics of a 70 kilo-Dalton heat shock protein (HSP70) with its antibody in a hypothetical microchannel is also investigated through the FEM simulations. Optimal reaction conditions are determined, including the flow velocity and the surface concentration of the immobilized probes (antibodies). Based on the numerical results and a series of experimental studies, the fast-SAM protocol application is successfully confirmed. Moreover, the optimum reagent concentration for a given one- hour conjugation process time is determined. This functionalization protocol is successfully applied to immobilize the HSP70 antibody on gold surfaces. The use of the fast-SAM protocol and the predicted optimum conjugation conditions result in binding of the HSP70 antibody on gold, with the same or superior immobilization quality, compared to the conventional protocols. Upon implementation of a 70 μm.s^(-1) flow velocity, the reaction is observed to complete in around 30-35 minutes, which is close to the numerically predicted 30 minutes and 16 seconds. This immunoreaction time is considerably less than conventional 4-12 hour processes. The modified in-situ functionalization techniques achieved here are promising for substantially reducing the preparation times and improving the performance of biosensors, in general, and immunoassays, in particular. Microfluidics Functionalization Self-assembled monolayers Immunoreaction Antibody conjugation Reaction kinetics Dimensional analysis Finite element modeling Atomic force microscopy Quartz crystal microbalance Fluorescent microscopy Mechanical Engineering
117	A Non Resonant Piezoelectric Sensor for Mass, Force and Stiffness Measurements Shrikanth, V January 2015 (has links) (PDF) The word piezo in greek means \to compress". Piezoelectric sensors work on the principle of direct piezoelectric effect, where a mechanical input generates a corresponding electric charge. The advantages of these sensors are wide fre-quency range of operation, high stiffness and small size. The main limitation of a piezoelectric sensor is that it cannot be used in measurements that are truly static. When a piezoelectric sensor is subjected to a static force, a fixed amount of charge is developed which would eventually decay at a rate dependent on the external impedance of the sensor circuitry. Operating sensors at resonance have been one of the methods to overcome the limitation of using piezoelectric sensors for static measurements. However, since both actuation and sensing are done by the same piezoelectric element, this results in a cross-talk of input and output signals. The drawback of using single piezoelectric element for actuation and sensing is overcome in this work by using two identical elements\|one for actuation and one for sensing. The operating frequency is about 10 % of the natural frequency of the sensor, thus enabling to operate the sensor in non resonant mode. Since the actuation and sensing mechanisms are separated, static measurement can be carried out. The output signal from the sensing element is monitored by a Lock-in amplifier which works on the principle of phase sensitive detection. The advantage of this sensor design is high sensitivity along with narrow band detection. It can be shown that the voltage output of the sensor Vout / a1 + m(b1 + b2F + b3K) + c1F + d1K, where m and K are the external mass and interaction stiffness, respectively, F is the force acting on it. By maintaining any two of these three quantities constant, the remaining one can be measured without any difficulty. The non resonant mode of operation makes it possible to explore the potential of this sensor in investigating mechanics of solid-liquid (viscous), solid-solid (inelastic) and solid-tissue(viscoelastic) interactions. High sensitivity, wide range of measurement (1 g{1 g) and high resolutio(0.1 g) of the non resonant mass sensor makes it possible to use it in measure-ment of very small masses of the order 1 g. Typically, resonant sensors such as quartz crystal microbalance (QCM) are used for mass measurements at that range. However, since the performance of resonant sensors is controlled by damp-ing, a phenomenon known as `missing mass effect' arises. Operating a sensor in non resonant mode (stiffness controlled mode) is a way to overcome this problem, especially when the mass is viscous and/or viscoelastic in nature. Drosophila fly, egg and larvae are the viscoelastic masses that are measured using this non res-onant sensor. Evaporating sessile drops of water and Cetyl trimethylammonium bromide (CTAB) surfactant solution from nominally flat surfaces are monitored to characterize the sensor for viscous mass measurement. Evaporation rate per unit surface area remains more or less constant, during the initial stages of evap-oration. When the surfactant concentration is varied, evaporation rate per unit surface area is highest for solutions around critical miscelle concentration (CMC). A study is carried out to understand the effect of concentrations on spreading of ink over inkjet printing paper. It is found that the spreading is least around CMC, since spreading is dependent on the rate of evaporation. The non resonant piezoelectric sensor which has high stiffness and quick re-sponse is also capable of measuring very small frictional forces. This sensor is configured to work as an inertial slider. Friction measurement at micro scales is important for designing microsystems such as stick-slip actuators. At such length scales, experiments have to performed at low loads and high excitation frequencies. The support stiffness of such systems should be high and the force of friction generated during slipping, when displacements are smaller than the contact radius, are of the order of few N. The displacement during slipping (S) is dependent on the amplitude of the input voltage to the actuation element. The frictional force measured during slipping by the sensor element indicates that the co-efficient of friction ( ) is independent of the sliding velocity. The developed non resonant sensor in this work under small amplitude exci-tation, can measure force gradient (i.e. stiffness). The total force generated when a needle is inserted into a viscoelastic material is a sum of force due to stiffness of the material, friction and the cutting force at the tip. The force due to stiffness is dominant when the needle is bending the tissue before the puncture occurs. Use of the non resonant sensor in tandem with strain gauge force sensor enables distinguishing the three components of the total force. The slope of the force-displacement (F -d) curve during the initial stages of needle penetration into the viscoelastic material, before puncture, is indicative of the stiffness of the mate-rial. The peak force measured during penetration is higher for needles with larger diameters and lower insertion velocities. The viscoelastic response (relaxation) of the material remains independent of the insertion velocity, for a given thickness of the material and a constant needle diameter. In summary, the sensor designed and developed in this work operates in stiffness controlled mode to eliminate the `missing mass effect' encountered dur-ing resonant mode of operation, has been clearly highlighted. Mass, force and stiffness measurements are possible over a wide range just by varying the ampli-tude of the input signal to the actuator element. The advantages such as high stiffness, small size and high response makes it advantageous to carry out in-situ micro scale studies in scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Piezoelectric Sensor Mechanical Sensor Mass Sensor Zirconate Titanate (PZT) Quartz crystal Sessile Drops Force Sensor Stiffness Sensor Piezoelectric Walker Non Resonant Sensor Non Resonant Sensor Friction Models MechanicalEngineering
118	Uso das técnicas de microbalança de cristal de quartzo e espectroscopia fotoacústica para estudo e monitoramento do processo de fotocura de resinas odontológicas / Use of quartz crystal microbalance and photoacoustic spectroscopy techniques to study and monitor the photocuring process of dental resins Marcenilda Amorim Lima 20 February 2014 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / As resinas fotocuradas são amplamente utilizadas em odontologia. Este processo de cura é assistido pela luz visível que promove ligações químicas que as endurecem. Nesta dissertação, as resinas odontológicas fotocuradas comerciais das marcas Opallis Flow A1, A2, AO 3,5, T, Opallis DA2, Natural Flow e Ebecryl 3720-TP25 foram caracterizadas empregando as técnicas de microbalança de cristal de quartzo (QCM) e espectroscopia fotoacústica (PAS) à temperatura ambiente. A espectroscopia fotoacústica foi utilizada para avaliar a região do espectro eletromagnético responsável pela fotocura das resinas odontológicas. Desta forma, conhecendo-se o comprimento de onda da absorção da resina, possibilitou realizar o processo de fotocura. Adicionalmente, foi possível monitorar o processo de fotocura com a técnica de microbalança. A frequência de ressonância do cristal da microbalança se modifica com a fotocura das resinas estudadas. Deste modo, foi possível estimar por QCM, o tempo de cura para os comprimentos de ondas caracterizados por PAS. / Photocured resins are largely used in dentistry. The curing process is visible light assisted provoking the chemical bonds that hardens the resin. In this dissertation, commercial photocured dentistry resins of brands Opallis Flow A1, A2, AO 3,5, T, Opallis DA2, Natural Flow and Ebecryl 3720-TP25 were characterized by quartz crystal microbalance (QCM) and photoacoustic spectroscopy (PAS) at room temperature. Photoacoustic spectroscopy was used to assess the region of the electromagnetic spectrum that is responsible for curing dental resins. Thus, knowing the absorption wavelength of the resin allowed the photocuring processes. Besides, the cure was monitored using microbalance technique. The ressonance frequency of the crystal microbalance changes during the photocuring processes. In this way, it was possible to evaluate by QCM the cure time for the wavelengths characterized by PAS. Resina fotocurada Canforoquinona Microbalança de cristal de quartzo Espectroscopia fotoacústica Compósitos poliméricos Polimerização Resinas dentárias Photocured resins Camphoroquinone Quartz crystal microbalance Photoacoustic spectroscopy ENGENHARIA DE MATERIAIS E METALURGICA
119	Uso das técnicas de microbalança de cristal de quartzo e espectroscopia fotoacústica para estudo e monitoramento do processo de fotocura de resinas odontológicas / Use of quartz crystal microbalance and photoacoustic spectroscopy techniques to study and monitor the photocuring process of dental resins Marcenilda Amorim Lima 20 February 2014 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / As resinas fotocuradas são amplamente utilizadas em odontologia. Este processo de cura é assistido pela luz visível que promove ligações químicas que as endurecem. Nesta dissertação, as resinas odontológicas fotocuradas comerciais das marcas Opallis Flow A1, A2, AO 3,5, T, Opallis DA2, Natural Flow e Ebecryl 3720-TP25 foram caracterizadas empregando as técnicas de microbalança de cristal de quartzo (QCM) e espectroscopia fotoacústica (PAS) à temperatura ambiente. A espectroscopia fotoacústica foi utilizada para avaliar a região do espectro eletromagnético responsável pela fotocura das resinas odontológicas. Desta forma, conhecendo-se o comprimento de onda da absorção da resina, possibilitou realizar o processo de fotocura. Adicionalmente, foi possível monitorar o processo de fotocura com a técnica de microbalança. A frequência de ressonância do cristal da microbalança se modifica com a fotocura das resinas estudadas. Deste modo, foi possível estimar por QCM, o tempo de cura para os comprimentos de ondas caracterizados por PAS. / Photocured resins are largely used in dentistry. The curing process is visible light assisted provoking the chemical bonds that hardens the resin. In this dissertation, commercial photocured dentistry resins of brands Opallis Flow A1, A2, AO 3,5, T, Opallis DA2, Natural Flow and Ebecryl 3720-TP25 were characterized by quartz crystal microbalance (QCM) and photoacoustic spectroscopy (PAS) at room temperature. Photoacoustic spectroscopy was used to assess the region of the electromagnetic spectrum that is responsible for curing dental resins. Thus, knowing the absorption wavelength of the resin allowed the photocuring processes. Besides, the cure was monitored using microbalance technique. The ressonance frequency of the crystal microbalance changes during the photocuring processes. In this way, it was possible to evaluate by QCM the cure time for the wavelengths characterized by PAS. Resina fotocurada Canforoquinona Microbalança de cristal de quartzo Espectroscopia fotoacústica Compósitos poliméricos Polimerização Resinas dentárias Photocured resins Camphoroquinone Quartz crystal microbalance Photoacoustic spectroscopy ENGENHARIA DE MATERIAIS E METALURGICA
120	Estudo da transferência de carga e massa na interface cobre/líquido : uma aplicação da QCM / Study of charge and mass transference on copper/liquid interface : an application of QCM Pinto, Edilson Moura 29 November 2004 (has links) Orientador: David Mendez Soares / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-06T09:05:00Z (GMT). No. of bitstreams: 1 Pinto_EdilsonMoura_M.pdf: 2421703 bytes, checksum: 4f88cfbf1bf972bc5ed1991a06982550 (MD5) Previous issue date: 2004 / Resumo: Neste trabalho, a QCM (Quartz Crystal Microbalan e) Microbalança de Cristal de Quartzo, como ténica alternativa para o estudo da corrosão /inibição do metal cobre. Estudamos a proteção anti-corrosão de superfícies de cobre mediante a adsorção de inibidores voláteis de corrosão (VCI-CHAB,Ciclohexilamina-Benzoato). Utilizamos uma QCM, composta de um cristal de quartzo de 6MHz, recoberto por um filme de ouro depositado por sputtering. Utilizamos Técnicas eletroquímicas para caracterizar a corrosão. Para isto, estudamos a corrosão do metal cobre em diferentes ambientes, básicos e ácidos, na presença e ausência dos inibidores. Aplicamos a QCM acoplada à um potenciostato (EQCM), como método de determinação de variação de massa e e carga de correntes da corrosão/inibição. A presença dos filmes VC I sobre a superfície de cobre, também foi demonstrada pela técnica Reflection-Absorption Infra-Red Spectros opy (RAIRS), através da Micros copia de infravermelho razante, esta técnica é indicada para situações em que os filmes formados são Ultra-finos. Baseado nos resultados das medidas feitas, propomos e des revemos um modelo para a dsorção dos filmes VCI sobre a superfície metálica, incluindo a formação da corrosão por pitting / Abstract: In this work we used the QCM (Quartz Crystal Microbalance) as an alternative technique for the studying of the corrosion/inhibition of cooper. We studied the protection of cooper surfaces due to the adsorption of a volatile corrosion inhibitor, (VCI-Cyclehexilamine-Benzoate). We used electrochemical techniques to characterize the corrosion in different environments. We applied the QCM together with the potentiostat as a method of determination of charge and mass variations. In this work the QCM has been used as a complementary technique for investigating the corrosion of copper with and without adsorbed inhibitors. The protection of copper surfaces due to the adsorption of a volatile corrosion inhibitor (VCI) ¿ Cyclohexylamine Benzoate ¿ has been studied by electro chemical techniques to characterise the corrosion in aqueous environments over a wide range of pH values. The presence of VCI films on the copper surface was also shown by Reflection-Absorption Infra-Red Spectroscopy (RAIRS), a technique indicated for situations when very thin films are formed. The EQCM, which used 6 MHz gold-sputtered quartz crystals coated with electrodeposited copper films, was applied to the simultaneous determination of the charge and frequency variations associated with the corrosion process, with and without adsorbed inhibitor. Based on the measurements, a model has been developed to describe the dynamics of adsorption of the VCI on the metalli surface, including the formation of pits on the surface / Mestrado / Superfícies e Interfaces ; Peliculas e Filamentos / Mestre em Física Microbalança de cristal de quartzo Inibidores de corrosão voláteis Eletroquímica Superfícies (Física) Cobre - Corrosão Quartz crystal microbalance Volatile corrosion inhibitors Electrochemistry Surfaces (Physics) Copper - Corrosion

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