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Cytocompatible coatings to control cell activityDrachuk, Irina 27 August 2014 (has links)
Cell-surface engineering has been attracting increased interest in the field of biotechnology, tissue engineering, cell therapy, or biosensors/bioelectronics. Thin nanocoatings or sometimes referred as nanoshells allow for modifying and controlling variety of cell properties, specifically retardation of cell division or growth, masking immunological properties, providing chemical and mechanical resistance to external stressors, and ability to further functionalize shells in order to guide cells attachment, their proliferation and function in artificial environment.
Bottom-up approach, utilizing layer-by-layer (LbL) assembly of wide variety of different components (synthetic and natural polyelectrolytes, nanoparticles, and other nano-structures) has been introduced and elaborated to modify cell surfaces. Despite successful examples of the LbL-based cell encapsulation with polyelectrolytes, cytotoxicity of their polycation components possesses severe limitations for this approach. Additionally, by constructing rigid non-permeable shells can suppress the essential properties of cells.
In this view, the goal of this research is to explore the formation of cyto-compatible ultrathin coatings from synthetic and natural polymers through utilization of non-cationic counterparts, with possibility to actively control cell division, provide protection from external environment, and temper shell properties in order to elicit or change specific cell response.
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Formulation, characterisation and topical delivery of salicylic acid containing whey-protein stabilised emulsions / Johann CombrinkCombrinck, Johann January 2014 (has links)
Emulsions are widely used as topical formulations in the pharmaceutical and cosmetic industry.
They are thermodynamically unstable and require emulsifiers to stabilize them physically. A
literature survey has revealed that emulsifiers could have an effect on topical delivery.
Therefore, the overall aim of this research project was to investigate and to understand the
various effects of biopolymers, chosen for this study as emulsifiers, on the release and the
topical delivery of an active ingredient from emulsion-based delivery systems. Emulsions were
stabilized by either whey protein alone or in combination with chitosan or carrageenan. Salicylic
acid was chosen as a model drug. Furthermore, the emulsions were prepared at three different
pH values (pH 4, 5 and 6) in order to introduce different charges to the polymeric emulsifiers
and subsequently determine the effect of pH on release as well as on dermal and transdermal
delivery. Emulsion characteristics, such as droplet size, zeta potential, viscosity and stability
against creaming and coalescence were ascertained. In addition, turbidity was determined to
evaluate the degree of insoluble complex formation in the aqueous phase of the emulsions. A
high pressure liquid chromatographic (HPLC) method was validated for the quantitative
determination of salicylic acid in the release, skin and transdermal perfusate samples. Nine
emulsions were formulated, utilizing the layer-by-layer (LbL) self-assembly technique, from
which the release of salicylic acid was determined. These release studies were conducted,
utilizing nitrocellulose membranes (0.2 μm pore size) with the use of Franz-type diffusion cells in
four replicates per formulation over a time period of 8 hours. Based on the emulsion
characterization and release data, six formulations, including the oil solution, were chosen to
determine dermal and transdermal delivery of salicylic acid. During the diffusion studies, the
effect of different pH (whey protein pH 4.00, 5.00 and 6.00), different polymers and different
polymer combinations were investigated. These diffusion studies were conducted with the use
of dermatomed (thickness ~400 μm), human abdominal skin and Franz-type diffusion cells over
a period of 24 hours. The characterization of the emulsions revealed no significant differences
in the droplet size and viscosity between the various formulations. All emulsions showed
stability towards coalescence over a time period of 7 days; however, not all the emulsions
showed stability towards creaming and flocculation. The results of the release studies indicated
that an increase in emulsion droplet charge could have a negative effect on the release of
salicylic acid from these formulations. In contrast, positively charged emulsion droplets could
enhance the dermal and transdermal delivery of salicylic acid from emulsions. It was
hypothesized that electrostatic complex formation between the emulsifier and salicylic acid
could affect the release, whereas electrostatic interaction between emulsion droplets and skin
could influence dermal/transdermal delivery of the active. Furthermore, the degree of ionization
of salicylic acid played an important role in the dermal and transdermal delivery of salicylic acid
from the various emulsions. / MSc (Pharmaceutics), North-West University, Potchefstroom Campus, 2014
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Formulation, characterisation and topical delivery of salicylic acid containing whey-protein stabilised emulsions / Johann CombrinkCombrinck, Johann January 2014 (has links)
Emulsions are widely used as topical formulations in the pharmaceutical and cosmetic industry.
They are thermodynamically unstable and require emulsifiers to stabilize them physically. A
literature survey has revealed that emulsifiers could have an effect on topical delivery.
Therefore, the overall aim of this research project was to investigate and to understand the
various effects of biopolymers, chosen for this study as emulsifiers, on the release and the
topical delivery of an active ingredient from emulsion-based delivery systems. Emulsions were
stabilized by either whey protein alone or in combination with chitosan or carrageenan. Salicylic
acid was chosen as a model drug. Furthermore, the emulsions were prepared at three different
pH values (pH 4, 5 and 6) in order to introduce different charges to the polymeric emulsifiers
and subsequently determine the effect of pH on release as well as on dermal and transdermal
delivery. Emulsion characteristics, such as droplet size, zeta potential, viscosity and stability
against creaming and coalescence were ascertained. In addition, turbidity was determined to
evaluate the degree of insoluble complex formation in the aqueous phase of the emulsions. A
high pressure liquid chromatographic (HPLC) method was validated for the quantitative
determination of salicylic acid in the release, skin and transdermal perfusate samples. Nine
emulsions were formulated, utilizing the layer-by-layer (LbL) self-assembly technique, from
which the release of salicylic acid was determined. These release studies were conducted,
utilizing nitrocellulose membranes (0.2 μm pore size) with the use of Franz-type diffusion cells in
four replicates per formulation over a time period of 8 hours. Based on the emulsion
characterization and release data, six formulations, including the oil solution, were chosen to
determine dermal and transdermal delivery of salicylic acid. During the diffusion studies, the
effect of different pH (whey protein pH 4.00, 5.00 and 6.00), different polymers and different
polymer combinations were investigated. These diffusion studies were conducted with the use
of dermatomed (thickness ~400 μm), human abdominal skin and Franz-type diffusion cells over
a period of 24 hours. The characterization of the emulsions revealed no significant differences
in the droplet size and viscosity between the various formulations. All emulsions showed
stability towards coalescence over a time period of 7 days; however, not all the emulsions
showed stability towards creaming and flocculation. The results of the release studies indicated
that an increase in emulsion droplet charge could have a negative effect on the release of
salicylic acid from these formulations. In contrast, positively charged emulsion droplets could
enhance the dermal and transdermal delivery of salicylic acid from emulsions. It was
hypothesized that electrostatic complex formation between the emulsifier and salicylic acid
could affect the release, whereas electrostatic interaction between emulsion droplets and skin
could influence dermal/transdermal delivery of the active. Furthermore, the degree of ionization
of salicylic acid played an important role in the dermal and transdermal delivery of salicylic acid
from the various emulsions. / MSc (Pharmaceutics), North-West University, Potchefstroom Campus, 2014
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Caracterização dos processos eletroquímicos em filmes automontados de poli(o-metoxianilina) e poli(ácido-3-tiofeno acético).Strixino, Francisco Trivinho 19 May 2003 (has links)
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Previous issue date: 2003-05-19 / Universidade Federal de Minas Gerais / In this work, the electrochemical characterization of a self-assembled
film containing two conductive polymers, poly(o-methoxyanilina)(POMA) and poly(3-
thiophene acetic acid)(PTAA), is presented. The technique that allows to obtain
these films is known as layer-by-layer (LBL) deposition. It consists in a spontaneous
adsorption of species with opposite charges. The technique used for the
electrochemical characterization was cyclic voltammetry coupled with mass variation
using an electrochemical quartz crystal microbalance (EQCM), which allows the
characterization of the LBL film mass/charge transport during the redox process.
Electroacoustic impedance experiments of the LBL films with different number of
bilayers show that the viscoelastic and mechanic tension properties do not change
significantly in the potential range studied. Therefore, allowing the use of the
Sauerbrey equation for converting the frequency values in mass values. The charge
compensation mechanism was determined using the species flux (ions+solvent
molecules) compared with POMA those casting films. The POMA-PTAA LBL film
presents a charge compensation mechanism due to simultaneous intercalation of
cations and anions. This behavior suggests the existence of a pseudo-self-doping
mechanism related to carboxilic lateral groups interactions through the alternating
layers structure of POMA-PTAA. The charge in the deprotonated carboxilic groups
neutralize the charge generation of the imina groups present in the POMA backbone,
which gives a decrease of the total mass change of the film. In this sense, the LBL
technique could be an alternative method to prepare conducting polymer films
modifying their electrochemistry properties. / Este trabalho tem como objetivo a caracterização dos processos
eletroquímicos em filmes automontados contendo dois polímeros condutores, a poli
(o-metoxianilina)(POMA) e o poli(ácido-3-tiofeno acético)(PTAA). A técnica que
permite a obtenção destes filme é conhecida como layer by layer (LBL) e consiste
na adsorção espontânea de espécies carregadas com cargas espaciais opostas. A
caracterização eletroquímica foi realizada utilizando a técnica de voltametria cíclica
acoplada à microbalança de cristal de quartzo eletroquímica (MCQE). Através dela
foi possível analisar os processos de transferência de massa e carga que ocorrem
nos filmes LBL durante o processo redox. Além disso, medidas de impedância
eletroacústica revelaram que os filmes LBL com diferente número de multicamadas
não apresentam variações consideráveis em suas propriedades viscoelásticas e
mecânicas, justificando o uso da Equação de Sauerbrey. As espécies que participam
do mecanismo de compensação de carga puderam ser determinadas com o auxílio
das curvas de fluxo de espécies (íons+moléculas do solvente), permitindo a
comparação com filmes de poli(o-metoxianilina) obtidos por evaporação do solvente.
O filme LBL de POMA-PTAA apresentou um mecanismo de compensação de carga
diferente do observado em filme de POMA obtido por evaporação do solvente. Neste
caso, o mecanismo de compensação de carga no filme LBL apresentou uma
participação simultânea de espécies catiônicas e aniônicas durante o processo
redox. Este comportamento sugere a presença de uma pseudo-autodopagem
relacionada com as interações dos grupos carboxílcos laterais através da estrutura
das multicamadas alternadas de POMA-PTAA. A carga presente nos grupos
carboxilatos auxiliam na compensação de cargas geradas nos grupos imina da
POMA, proporcionando uma diminuição da massa transportada da solução para
manter a condição de eletroneutralidade. Os resultados obtidos demonstraram que a
técnica de automontagem pode ser um método alternativo na fabricação de filmes
de polímeros condutores com modificações em suas propriedades eletroquímicas.
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Estudo da orientação molecular em filmes automontados de azopolímeros por meio da técnica de geração de segundo harmônico (SHG) / Molecular orientation in self-assembled azo-polymer thin films studied by second harmonic generation (SHG).Fábio Juliano da Silva Lopes 17 August 2006 (has links)
Filmes ultrafinos de polímeros que contém azocromóforos são importantes para muitas aplicações como armazenamento óptico, formação de grades de relevo superficiais, alinhamento de camadas de cristal líquido e dispositivos ópticos com propriedades não-lineares. Dentre as muitas técnicas de fabricação de filmes orgânicos ultrafinos, a técnica de Automontagem eletrostática camada a camada (Layer-by-Layer, LBL) é muito atrativa devido a sua simplicidade e versatilidade, permitindo o controle na espessura e na composição dos filmes em escalas nanométricas. Contudo, a completa caracterização estrutural de tais filmes enfrenta dificuldades devido à falta de técnicas experimentais apropriadas. Utilizamos a Geração de Segundo Harmônico (SHG) para estudar a orientação molecular de filmes automontados de um polieletrólito catiônico (PAH - Poli(alilamina hidroclorada)) e um polieletrólito aniônico contendo azocromóforos como grupos laterais (Ma-co-DR13) sobre substrato de vidro. O sinal de SHG é proporcional à susceptibilidade não-linear de segunda ordem do filme, que por sua vez depende da distribuição orientacional dos azocromóforos nesse filme. Os resultados indicam que existem uma orientação preferencial dos azocromóforos, que leva a uma não-linearidade óptica significativa. Entretanto, a intensidade do sinal e a anisotropia não são homogêneas por toda a amostra, indicando a presença de domínios orientacionais, que é verificado por meio da Microscopia a Ângulo de Brewster (BAM). O sinal médio de SHG não aumenta com a espessura do filme, indicando que a ordem orientacional das sucessivas bicamadas são independentes. Analisando o sinal de SHG em função das polarizações de saída e entrada, alguns parâmetros da distribuição orientacional dos azocromóforos podem ser deduzidos. Ajustando as medidas de SHG a uma distribuição modelo concluímos que os cromóforos possuem uma certa distribuição angular com um ângulo médio em relação à superfície do plano de aproximadamente 40° e uma pequena anisotropia ao longo do plano do filme. Utilizamos também o Método da Máxima Entropia (MEM) para determinar a distribuição mais larga possível compatível com nossos dados experimentais e comparar então com a distribuição modelo obtida através dos procedimentos de ajuste. / Ultrathin films of polymers containing azochromophores are important for many applications such as optical data storage, formation of surface relief gratings, liquid crystal alignment layers and non-linear optical devices. Among several techniques for fabricating organic thin films, the Layer-By-Layer electrostatic self-assembly (LBL) is very attractive due to its simplicity and versatility, allowing one to control film thickness and composition in the nanometer scale. However, thorough structural characterization of such films is often difficult due to lack of appropriate experimental techniques. We have used optical second-harmonic generation (SHG) to study the molecular orientation of Layer-by-Layer films of a cationic polyelectrolyte ((PAH - Poly(allylamine hydrochloride)) and a anionic polyelectrolyte containing azochromophores with azo side groups (PAH/Ma-co-DR13) on a glass substrate. The SHG signal is proportional to the second-order nonlinear susceptibility of the film, which in turn depends on the orientational distribution of the azo chromophores in the film. The results indicate that there is a preferential orientation of the azo chromophores in the film, leading to a significant optical nonlinearity. However, both the signal strength and its anisotropy are not homogeneous throughout the sample, indicating the presence of orientational domains. This is verified through Brewster Angle Microscopy (BAM). The average SHG signal does not increase with film thickness, indicating that the orientational order of successive bilayers are independent. Analyzing the SHG signal as a function of the input and output polarizations, a few parameters of the azochromophore orientational distribution can be deduced. Fitting the SHG signal to a simple model distribution, we have concluded that the chromophores have an angular distribution with a mean tilt from the surface plane of approximately 41° and a slight in-plane anisotropy. We have also used the Maximum-Entropy Method (MEM) to determine the widest orientational distribution compatible with our data and compared it to the model distribution obtained by the fitting procedure.
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Radiative heat transfer in combustion applications : parallel efficiencies of two gas models, turbulent radiation interactions in particulate laden flows, and coarse mesh finite difference acceleration for improved temporal accuracyCleveland, Mathew A. 02 December 2011 (has links)
We investigate several aspects of the numerical solution of the radiative transfer
equation in the context of coal combustion: the parallel efficiency of two commonly used
opacity models, the sensitivity of turbulent radiation interaction (TRI) effects
to the presence of coal particulate, and an improvement of the order of temporal
convergence using the coarse mesh finite difference (CMFD) method.
There are four opacity models commonly employed to evaluate the radiative
transfer equation in combustion applications; line-by-line (LBL), multigroup, band,
and global. Most of these models have been rigorously evaluated for serial computations
of a spectrum of problem types [1]. Studies of these models for parallel
computations [2] are limited. We assessed the performance of the Spectral-Line-
Based weighted sum of gray gasses (SLW) model, a global method related to K-distribution
methods [1], and the LBL model. The LBL model directly interpolates
opacity information from large data tables. The LBL model outperforms the SLW
model in almost all cases, as suggested by Wang et al. [3]. The SLW model, however,
shows superior parallel scaling performance and a decreased sensitivity to
load imbalancing, suggesting that for some problems, global methods such as the
SLW model, could outperform the LBL model.
Turbulent radiation interaction (TRI) effects are associated with the differences
in the time scales of the
fluid dynamic equations and the radiative transfer equations.
Solving on the
fluid dynamic time step size produces large changes in the
radiation field over the time step. We have modifed the statistically homogeneous,
non-premixed
flame problem of Deshmukh et al. [4] to include coal-type particulate.
The addition of low mass loadings of particulate minimally impacts the TRI
effects. Observed differences in the TRI effects from variations in the packing fractions
and Stokes numbers are difficult to analyze because of the significant effect
of variations in problem initialization. The TRI effects are very sensitive to the
initialization of the turbulence in the system. The TRI parameters are somewhat
sensitive to the treatment of particulate temperature and the particulate optical
thickness, and this effect are amplified by increased particulate loading.
Monte Carlo radiative heat transfer simulations of time-dependent combustion
processes generally involve an explicit evaluation of emission source because of
the expense of the transport solver. Recently, Park et al. [5] have applied quasidiffusion with Monte Carlo in high energy density radiative transfer applications.
We employ a Crank-Nicholson temporal integration scheme in conjunction with the
coarse mesh finite difference (CMFD) method, in an effort to improve the temporal
accuracy of the Monte Carlo solver. Our results show that this CMFD-CN method
is an improvement over Monte Carlo with CMFD time-differenced via Backward
Euler, and Implicit Monte Carlo [6] (IMC). The increase in accuracy involves very
little increase in computational cost, and the figure of merit for the CMFD-CN
scheme is greater than IMC. / Graduation date: 2012
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Modulation de l’interaction électrostatique entre nanomatériaux en solutions et aux interfaces : Vers la génération de surfaces fonctionnelles hybrides / Fine tuning of electrostatic interaction between nanomaterials in solutions and at interfaces : towards the fabrication of hybrid functional surfacesSekar, Sribharani 09 July 2013 (has links)
Des couches fonctionnelles hybrides organiques/inorganiques ont été générées à une interface solide/liquide à l’aide d’une nouvelle technique de fabrication ascendante (bottomup) dénommée Croissance de Couche à partir d’une Surface (Surface Grown Layers - SgL)grâce à une modulation très fine de l’interaction électrostatique entre nano-objets decharges opposés en fonction de la force ionique de la dispersion aqueuse. Différents nanoparticules/tubes à la fois cationiques et anioniques et très stables vis-à-vis d’un environnement fortement salin ont été développés. La complexation électrostatique entre ces nanomatériaux a été étudiée en solution et près d’une interface au travers du concept de “transition de dessalage”. Dans un deuxième temps la croissance de couches hybrides à partird’un substrat a été étudiée en comparant l’approche SgL et la méthode classique d’adsorption séquentielle couche par couche (Layer by layer - LbL). Des expériences préliminaires ont montré le potentiel de cette approche dans le développement de substrats fonctionnels. / In this manuscript, one-step bottom-up fabrication of “smart organic-inorganic hybridfunctional layers” at a liquid/solid interface were fabricated via a novel surfacefunctionalization pathway termed as “Surface Grown Hybrid Functional Layers” or SgLthrough fine tuning of electrostatic interaction between “highly stable” and oppositelycharged nanomaterials as a function of ionic strength of the dispersion. Cationic and anionicnanomaterials based on different hybrid nanoparticles/nanotubes that are very stable towardshigh saline environment have been formulated. The electrostatic complexation between theseoppositely charged nanomaterials has been studied in bulk and at an interface through theconcept of “desalting transition” pathway. In a second step, the growth of functional hybridlayers directly from a substrate via the novel SgL approach was then compared with theconventional Layer-by-Layer approach (LbL). Finally the preliminary experiments haveshown the potential applications of generated functional surfaces.
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PREPARAÇÃO E CARACTERIZAÇÃO DE NANOPARTÍCULAS DE PLATINA INCORPORADAS AO POLÍMERO CLORETO DE 3-n-PROPILPIRIDÍNIO SILSESQUIOXANOSantos, Vagner dos 20 February 2009 (has links)
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Previous issue date: 2009-03-20 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / This work describes the preparation of platinum nanoparticles using the inorganic polymer 3-n-propylpyridine sylsesquioxane chloride (SiPy+Cl-) as nanoreator and stabilizer. The system comprising the metallic nanoparticle and the SiPy+Cl- (called hybrid Pt-SiPy+Cl-) was obtained by chemical reduction of H2PtCl6 in the presence of SiPy+Cl-, using formic acid as reducing agent. The formation of platinum nanoparticles was monitored by UV-vis spectroscopy by measuring the
decrease in the intensity of the band in ca. 375 nm attributed to the electronic absorption of PtCl6 -2 ions. The average size of the nanoparticles was determined by transmission electron microscopy (TEM) and is between 3 and 40 nm. The
hybrid Pt-SiPy+Cl- was used as a polycation in the preparation of layer-by-layer (LbL) films on FTO substrate (tin oxide doped with fluorine), alone, or being alternated with polyanion polyvinylsulphonic acid (PVS). Measurements of cyclic voltammetry obtained from prepared films confirmed the incorporation of metallic platinum in the polymer SiPy+Cl-, as can be seen by the adsorption and desorption of hydrogen in potential regions characteristics for platinum. The electrodes
containing LbL films of Pt-SiPy+Cl-/PVS and PVS/Pt-SiPy+Cl- were tested as catalyst for dopamine (DA) oxidation at different concentrations (1.0x10-6 mol L-1 to 2.17x10-3 mol L-1). The film containing 12 LbL bilayers of PVS/Pt-SiPy+Clpresented the greater homogeneity in the distribution of material on substrate, as determined by atomic force microscopy (AFM). The former also has the better
response for the electrochemical determination of DA in concentrations lower than 1.0x10-5 mol L-1 (greater sensitivity) when compared to electrodes made of: a LbL
film containing only the hybrid, a platinum plate and a FTO plate. Moreover, the limit of detection (LOD) for DA using the LbL film containing 12 bilayers of PVS/Pt-SiPy+Cl- was in the order of 1.0x10-5 mol L-1, while the other electrodes showed
higher values. These results indicate that the application of this electrode formed by LbL films illustrate a new material for DA electrochemical detection, generating the possibility of replacing the conventional platinum electrodes. Moreover, in the future, there is the possibility of the application of this LbL film electrode as a sensor for in vivo DA detection. / Este trabalho descreve a preparação de nanopartículas de platina utilizando o polímero inorgânico cloreto de 3-n-propilpiridínio silsesquioxano (SiPy+Cl-) como nanoreator e estabilizante. O sistema composto pela nanopartícula metálica e o SiPy+Cl- (chamado de híbrido Pt-SiPy+Cl-) foi obtido via redução química do H2PtCl6 na presença de SiPy+Cl-, usando ácido fórmico como agente redutor. A formação das nanopartículas de platina foi monitorada por espectroscopia de UVvis medindo-se o decréscimo da intensidade da banda de 375 nm atribuída à absorção eletrônica dos íons PtCl6
-2. O tamanho médio das nanopartículas foi determinado por medidas de microscopia eletrônica de transmissão (MET) e estão entre 3 e 40 nm. O híbrido Pt-SiPy+Cl- foi utilizado como um policátion na preparação de filmes automontados sobre substrato FTO (óxido de estanho dopado com flúor) por meio da técnica Layer-by-Layer (LbL), sozinho, ou sendo
alternado com o poliânion ácido polivinilsulfônico (PVS). Medidas de voltametria cíclica obtidas a partir dos filmes preparados confirmaram a incorporação de platina metálica no interior do polímero SiPy+Cl-, já que se pode observar o
processo de adsorção e dessorção do hidrogênio em regiões de potencial características da platina. Os eletrodos formados com filmes automontados de Pt-SiPy+Cl-/PVS e PVS/Pt-SiPy+Cl- foram testados como catalisador para a oxidação
da dopamina (DA) em diferentes concentrações (1,0x10-6 mol.L-1 a 2,17x10-3 mol.L-1). O filme LbL contendo 12 bicamadas de PVS/Pt-SiPy+Cl- foi o que apresentou uma melhor homogeneidade na distribuição do material sobre o
substrato, conforme determinado por medidas de microscopia de força atômica (AFM). Este último, também foi o que apresentou uma melhor reposta eletroquímica na eterminação de DA em concentrações abaixo de 1,0x10-5 molL-1
(maior sensibilidade) em relação aos eletrodos constituídos por: um filme LbL formado apenas com o híbrido, uma placa de platina e uma placa de FTO. Além disso, o limite de detecção (LOD) para a DA utilizando o filme LbL contendo 12 bicamadas de PVS/Pt-SiPy+Cl- foi da ordem de 1,0x10-5 mol L-1, enquanto que os demais eletrodos apresentaram valores maiores. Estes resultados indicam que a aplicação desse eletrodo, formado por filmes LbL, mostram um novo material para detecção eletroquímica da DA criando a possibilidade de substituir os eletrodos convencionais de platina. Além da possibilidade, no futuro, da aplicação dos eletrodos LbL nas detecções de dopamina in vivo.
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Synthesis of New lonic Functional Polymers by Free Radical Polymerization via the RAFT ProcessBaussard, Jean-François 26 January 2004 (has links)
Within the emerging methods of controlled free radical polymerization, the Reversible Addition-Fragmentation chain Transfer (RAFT) process has been recently established as a powerful technique to synthesize standard polymers with controlled characteristics (narrow polydispersity and predictable molar masses). This method is now employed to synthesize well-defined, reactive precursor polymers that are subsequently converted into speciality polymers such as fluorescent-labeled polycations. Those are suitable for Electrostatic Self-Assembly (ESA). The observation of the Förster Resonance Energy Transfer (FRET) in such films is established, contributing to the understanding of the self-organization during thin film growth.
The RAFT process using Benzyl Dithiobenzoate (BDTB) is shown to enable the control of the free radical polymerization of vinylbenzyl chloride (VBC). The high tolerance of the method to functional groups allows the preparation of such reactive polymers with narrow polydispersities and predictable molar masses. The well-defined precursors are easily converted, for instance, to polycations. Also they are easily functionalized by fluorophores, here derived from coumarin and perylene. The fluorophores, as pendent side chains, served as label to investigate the alternating deposition process, while the influence of molecular variations on the self-assembly can be systematized. Furthermore, when using complementary fluorophores, Fluorescence Resonance Energy Transfer (FRET) studies in organized media become possible.
The alternating deposition cycles are followed by UV-Vis spectroscopy, ellipsometry, and X-Ray reflectivity. Regular growth is observed for three complementarily labeled polycations. Noteworthy, fluorescence and UV-Vis studies reveal the formation of large fluorescent dye aggregates for one coumarin and for the perylene derivative in the ESA multilayers. When these polycations are used in mixed thin films, Förster Resonance Energy Transfer (FRET) between fluorophores is observed. The non-radiative nature of the different energy transfer was confirmed by fluorescence decay time measurements/
Parmi les récentes méthodes pour contrôler la polymérisation radicalaire, le procédé RAFT (Reversible Addition-Fragmentation chain Transfer) a été récemment établi et s'impose comme une méthode performante pour la synthèse de polymères standards possédant des caractéristiques contrôlées (faibles polydispersités et masses molaires prédictibles). Cette méthode est désormais utilisée pour la synthèse de précurseurs réactifs bien définis qui sont par la suite convertis en polymères spécialisés, par exemple en polycations marqués a l'aide de sondes fluorescentes. Ces polycations peuvent être ensuite auto-assemblés électrostatiquement afin d'élaborer des films minces. Le phénomène de transfert de fluorescence (Förster Resonance Energy Transfer –FRET-) dans de tels films a été établi, contribuant par là-même à une meilleure compréhension du phénomène d'auto-organisation durant la croissance des films.
Le procédé RAFT, utilisant le dithiobenzoate de benzyle (BDTB), a démontré sa capacité à contrôler la polymérisation radicalaire du chlorométhlstyrène (VBC). La tolérance de cette méthode vis à vis des groupes fonctionnels permet la synthèse de polymères réactifs possédant de faibles polydispersités et des masses molaires prédictibles. Les précurseurs ainsi définis sont facilement convertis, en polycations par exemple. Ils sont tout aussi facilement fonctionnalisés par des fluorophores dérivés de la coumarine ou du pérylène. Les fluorophores en tant que chaînes pendantes servent de marqueurs pour étudier le processus de dépôts alternés, alors que l'influence des variations au niveau moléculaire peut être systématisée. De plus, en utilisant des fluorophores complémentaires, il devient possible de mener des études sur le transfert de fluorescence (FRET) au sein de milieux organisés.
Les cycles de dépôts alternés ont été suivis par spectroscopie UV-Vis, éllipsométrie et reflexion des rayons X. Une croissance régulière est observée dans le cas des trois polycations marqués. Il convient de noter que les études UV-Vis et de fluorescence révèlent la formation de larges aggrégats de fluorophores au sein des multicouches, dans le cas d'une coumarine et du dérivé de pérylène. Lorsque les polycations complémentaires sont utilisés dans des films minces mixtes, le FRET est observé. La nature radiative ou non-radiative du processus de transfert d'énergie a été confirmée par des mesures de déclin de fluorescence.
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Design of biomechanocatalytic surfaces : modulations of enzymatic activity through macromolecular conformational changes / Elaboration de surfaces biologiquement actives répondant à un stimulus mécanique : modulations de l'activité enzymatique par le biais de changements conformationnels macromoléculairesLongo, Johan 25 September 2014 (has links)
Depuis plusieurs années, une nouvelle génération de matériaux appelés “matériaux intelligents” et définis par leur capacité d’adaptation à leur environnement, est intensément développée. Des systèmes sensibles à différents stimuli tels que le pH, la lumière, ou encore une force mécanique, impliquée dans un grand nombre de processus naturels, comme l’adhésion et la prolifération cellulaire, ont été rapportés. Ce travail de thèse a ainsi été dédié au développement de matériaux mécano-sensibles. Plus précisément de matériaux transformant une contrainte mécanique en un signal chimique, en mimant le processus physique utilisé par la nature, à savoir des changements conformationnels de protéines. Nous avons donc cherché à atteindre ce but en greffant covalemment des protéines ou des enzymes sur un substrat élastomère. Etirer le substrat devant induire des modifications de structure des protéines, conduisant ainsi à des modulations de leurs propriétés. / Since many years, a new generation of materials called « smart materials » and defined by their capacity to adapt to their environment is intensively developed. Systems sensitive to different stimuli such as pH, light or ionic strength have been reported. One of these stimuli can also be a mechanical force which is involved in many reactions in nature such as, cells adhesion and proliferation, tissues growing or even plants developments. The aim of my thesis was dedicated to the elaboration of mechano-responsive materials. More precisely, materials that transform a stretching constraint into a chemical signal by mimicking the physical processes used by nature, namely protein conformational changes. We planned to achieve this goal by covalently grafting proteins or enzymes onto a stretchable substrate or incorporating them into cross-linked polymer networks. Stretching these materials should induce protein conformational changes leading to modifications of their properties.
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