Global ETD Search

161	Neuartige anionische und selbst-assemblierbare Tenside mit dendritischem Molekülaufbau Akpo, Claudia Constance 25 November 2009 (has links) Die vorliegende Arbeit widmete sich unter grundlagenorientierten und praxisrelevanten Aspekten der Entwicklung maßgeschneiderter, multifunktionalisierter Tenside mit potenziellen Sammler- und Filmbildungseigenschaften im Zusammenhang mit der mineralischen Flotation. Auf der Basis supramolekularer Konstruktionsprinzipien gelang die Synthese dendritisch verzweigter Amphiphile, die relevante Unterschiede in der Hydrophilie-Hydrophobie-Balance aufweisen und in der Flexibilität des Spacersegmentes sowie der peripheren Alkylkettenlänge im hydrophoben Molekülbereich variieren. Im Hinblick auf die Struktur-Wirkungs-Beziehungen der neuartigen Amphiphile fanden Versuche zur Ermittlung der tensidchemischen Parameter sowie Untersuchungen zu ihrem Filmbildungsverhalten statt. Des Weiteren wurden die synthetisierten Tenside im Mikroflotationsversuch auf ihre Eignung als Sammlerkomponenten am Modellmineral Fluorit getestet. Generell führt eine Erweiterung der polaren Haftgruppen zu einer wesentlich besseren Fixierung der amphiphilen Moleküle sowohl an der Phasengrenzfläche Wasser/Luft als auch an der mineralischen Fluoritoberfläche. Darüber hinaus begünstigt eine starre Geometrie die Ausbildung stabilerer monomolekularer Adsorptionsschichten. Im Flotationsprozess bewirken die präorganisierten, dendritisch verzweigten Sammlermoleküle gegenüber konventionellen Reagenzien eine deutliche Effizienzsteigerung. info:eu-repo/classification/ddc/540 ddc:540
162	Self-Assembled Host-Guest Thin Films for Functional Interfaces Erdy, Christine 29 December 2008 (has links) The functionalization of surfaces has received attention because the process allows the design and tailoring of substrate surfaces with a new or improved function. "Host-guest" thin film complexes are composed of "host" molecules attached the substrate surface, either through physisorption or covalent bonds, with cavities for the inclusion of desired "guest" molecules for the functionalization of the surface. Two methods for fabricating functional "host-guest" thin films were investigated: Langmuir-Blodgett (LB) deposition and self-assembly monolayer (SAM). Langmuir films were created at the air-water interface using octadecanesulfonic acid (C18S) as the amphiphilic "host" molecules separated by hydrophilic guanidinium (G) spacer molecules, which created a cavity allowing the inclusion of desired "guest" molecules. Surface pressure-area isotherms of the (G)C18S, with and without guests, are characterized by the lift-off molecular areas and are use to determine the proper deposition surface pressure. "Host-guest" Langmuir films are deposited onto silicon substrates using the LB deposition technique. The LB films were then subjected to stability testing using different solvents over increasing periods of time. Grazing-angle incidence X-ray diffraction (GIXD), specular X-ray reflectivity (XRR) and transfer ratio measurements were used to characterize the crystallinity, film thickness, overall film stability and film coverage. The GIXD data revealed that the crystallinity of the deposited film varies with the "guest" molecules and can be disrupted by the functional group on the "guest" molecule through hydrogen bonding. After modeling the XRR data using StochFit, it was discovered that the more polar solvent, tetrahydrofuran (THF), removed the film completely while the nonpolar solvent, hexane, compacted the thin film and increased the electron density. With transfer ratios around 0.95 to 1.05, the deposited films were homogenous. The second method used was self-assembly monolayers, which differs from Langmuir films in that they are created by a spontaneous chemical synthesis from immersing a substrate into a solution containing an active surfactant. Octadecyltrichlorosilane (OTS) was used initially as a molecule to study the self-assembled monolayer procedure. To study a "host-guest" self-assembled monolayer system, a compound is being synthesized from 9-bromoanthracene. This compound would already contain the cavity necessary for the inclusion of "guest" molecules. The solution that contained OTS was composed of a 4:1 mixture of anhydrous octadecane: chloroform. Silicon substrates with a deposited oxide layer were hydroxylated for the surfactant binding chemical reaction to occur. The OTS SAMs were exposed to the same stability tests as the LB films. Surface contact angle measurements were taken of the OTS SAMs before and after the stability tests. The contact angle prior to the stability tests was 110° (±2°). The contact angle after immersion in THF was 101° (±2°) while the contact angle resulting from immersion in hexane was 105° (±2°). From the contact angle measurements, the degradation of the OTS SAMs was less extensive than that of the (G)C18S LB films. / Master of Science X-ray diffraction host-guest films surface modification self-assembled monolayer Langmuir-Blodgett film specular X-ray reflectivity
163	Host-Guest Assemblies for Functional Interfaces via Langmuir-Blodgett and Self-Assembly Technique Shin, Du Hyun 24 January 2014 (has links) Various technologies depend on interfacial events that are influenced by various molecular interactions at a solid-liquid interface. The functionality of a surface plays an important role in many applications such as catalysis, sensing, and bio-compatibility, which can benefit from distinctive chemical and physical surface properties. To create tailor-made functional surfaces, surface host-guest assemblies based on Langmuir-Blodgett and self-assembly technique have been employed as a model system as they may offer the potential ability to regenerate surface properties via intercalation of various functional guest molecules. This thesis ranges over the development and characterization of host-guest assemblies and their feasibilities for the regeneration of surface properties via intercalation of functional guests. In our work, 3-dimensional host structures with cavities are constructed on a targeted solid substrate using Langmuir-Blodgett and self-assembly techniques. In particular, by adopting the fundamental concept of host-guest interaction in supramolecular chemistry, we expect that structurally homologous guest molecules where functional groups are anchored can be intercalated into the cavities between hydrophobe arrays at the liquid-solid interface from solution under well-controlled conditions. This approach offers the potential of separating the functional of the monolayer from the inherent structure of the host. The first part of this thesis details two-dimensional host-guest assemblies consisting of guanidinium (G), octadecylsulfonate (S) and various functional alkane guests at the air-aqueous interface and following deposition onto solid substrates via the Langmuir-Blodgett technique. In particular, we evaluated the stability of the host-guest assemblies and the feasibility of exchanging molecular guests under exposure to various organic solvent environments. Analysis of X-ray reflectivity measurements of the thin films showed that good stability of the host-guest assembly could not be achieved due to weak interactions between the host monoalyer and the solid surface. In addition, no evidence of intercalation of guest molecules into guest-free host-cavities was observed. The second part of this thesis discusses the effective methodologies to prepare low-density self-assembled monolayers (LDSAMs) with cavities on silicon substrates. We employed a step-wise reaction based on hydrolytic or silane chemistry: integral spacer molecules such as anthracene-derivatives were anchored to the Si substrate and then long alkane chains were appended to the spacer molecules. The results showed that LDSAMs using an anthryl spacer are attached at the SAM/Si interface via a Si-O-C linkage, and the films do not exhibit a densely packed monolayer quality as would be expected for a non-sterically hindered alkyltrichlorosilane on Si. Thus, the resulting LDSAMs (with cavities) may be capable of accommodating other guest molecules with hydrocarbon chains through intercalation in order to form host-guest assemblies. The third part of this thesis demonstrates the ability of LDSAMs to produce functional surfaces via the intercalation of various functional guest molecules. Self-assembled monolayers of (10-octadecyl)-9-anthracenethiol (host-SAMs) on Au substrates were prepared. Quartz crystal microbalance with dissipation (QCM-D) measurements was used to demonstrate the capacity of LDSAMs to confine guest molecules in the cavities and to probe the structural changes of the host-guest assembly during guest intercalation from ethanol solution. X-ray photoelectron spectroscopy (XPS) measurements were then used to probe host-guest monolayers formed by immersing the host monolayer in solutions in a variety of other solvents. A combined study of QCM-D and XPS showed that guest molecules were intercalated into host-cavities. The reversibility of the intercalation process allows a guest already situated in a host-cavity to be replaced with second guest under well-regulated solvent conditions. / Ph. D. Functional interfaces organic molecular monolayer Langmuir-Blodgett self-assembly low-density self-assembled monolayer host-guest assemblies
164	Composés macrocycliques bioactifs : synthèse et étude de leurs interactions avec des membranes biologiques modèles / Bioactive macrocyclic compounds : syntheses and study of their interactions with biological membrane models Sautrey, Guillaume 09 December 2011 (has links) Le travail suivant est consacré d'une part à l'emploi du calix[4]arène comme une plate-forme organisatrice de principes actifs pour la conception de nouvelles prodrogues. Ce concept a été développé avec des substances antibactériennes ou antivirales, choisies comme modèles. Les conjugués calixarène - anti-infectieux ainsi synthétisés sont amphiphiles et insolubles dans l'eau. Leur comportement interfacial a été étudié via l'interface eau-air, mime d'une interface hydrophile-hydrophobe physiologique, à l'aide de la technique des films monomoléculaires de Langmuir. Nos résultats indiquent que ces prodrogues étalées à l'interface eau-air peuvent libérer leurs principes actifs dans la sous-phase. La méthodologie développée pour ces études de réactivité interfaciale pourrait à l'avenir être appliquée à d'autres prodrogues à base de calix[4]arène. Un second projet a concerné le trifluoroacétate de tétra-p-(guanidinoéthyl)-calix[4]arène (CX1). Ce composé présente des propriétés antibactériennes à large spectre, couplées à une faible toxicité cellulaire. Nos travaux ont visé à mieux comprendre son mode d'action, lié à une perturbation des parois bactériennes, par une approche physico-chimique. La technique de Langmuir a donc été employée afin d'étudier les interactions entre le CX1 et des films monomoléculaires de phospholipides étalés à l'interface eau-air, utilisés comme modèles de membrane bactérienne. Nos résultats nous ont permis de proposer un mode d'organisation des membranes bactériennes sous l'influence du CX1. Nous avons ainsi apporté des précisions sur son mécanisme d'action qui pourraient être utiles dans le développement de nouveaux calixarènes antibactériens / This work begins with utilization of the calix[4]arene macrocycle as organizing platform of anti-infectious molecules shaped as prodrug. The concept has been explored using antibacterial (nalidixic acid) and antiviral (aciclovir, ganciclovir) molecules, chosen as models. The calixarene - anti-infectious conjugates synthesized have amphiphilic structure and are insoluble in aqueous media. Their interfacial behavior was studied via the air-water interface, considered as mimic of biological hydrophilic-hydrophobic interfaces, using Langmuir monolayers technique. Our results indicate that calixarene-based prodrugs spread at the air-water interface are able to release anti-infectious molecules into the subphase. The original methodology employed for interfacial reactivity studies could be applied to further calixarene-based prodrugs. A second project concerns the trifluoroacetate salt of tetra-p-(guanidinoethyl)-calix[4]arene (CX1). CX1 is antibacterial, active against various Gram-positive and Gram-negative bacteria, with low eukaryotic cell toxicity. The aim of our work was to get more insight in the mechanism of action of CX1, involving bacterial wall disruption, by a physico-chemical approach. The Langmuir monolayers technique was employed in order to study interactions between CX1 and phospholipid monolayers spread at the air-water interface, used as models of bacterial membranes. Our results led us to propose a particular reorganization mode of bacterial membranes upon interactions with CX1. This proposal gives more understanding in the mechanism of biological activity of CX1, and could be helpful in developing new antibacterial calixarene derivatives Calixarènes Couches de Langmuir-Blodgett Promédicaments Phospholipides Antiinfectieux Modèles de Membrane Films de Langmuir Pm-irras Calixarenes Langmuir Monolayers Prodrugs Phospholipids Antiinfectious Membrane Models Pm-irras 547.63 615.19
165	Avaliação da atividade osteogênica de superfícies de titânio revestidas com camadas de lipídios e fosfato de cálcio / Evaluation of the osteogenic activity of titanium surfaces coated with lipids layers and calcium phosphate Faria, Amanda Natalina de 24 March 2017 (has links) As coberturas de hidroxiapatita (HAp) são utilizadas para aumentar a osteointegração em implantes de titânio (Ti), devido à sua capacidade de promover a biomineralização para corrigir defeitos esqueléticos e craniofaciais. O objetivo desta pesquisa foi avaliar a influência dos revestimentos sobre culturas primárias de osteoblastos. Na primeira fase de estudos, desenvolvemos uma nova abordagem de revestimento baseada em filmes Langmuir-Blodgett (LB) de dihexadecilfosfato (DHP) e ácido octadecilfosfônico (OPA) depositados em discos Ti, e crescimento subsequente de cristais de HAp. Analisamos a viabilidade dos osteoblastos, a atividade da fosfatase alcalina (ALP) e a formação da matriz mineralizada por métodos colorimétricos e a morfologia das culturas por microscopia eletrônica de varredura e microscopia confocal. Os resultados revelaram que o revestimento DHP/HAp aumentou a viabilidade dos osteoblastos até 150% em comparação com o controle em todos os dias testados. O revestimento OPA/HAp promoveu a maior viabilidade ao 14 dias (190%). A atividade de ALP foi aumentada apenas pelo revestimento de DHP/HAp ao 14º dia em comparação com o controle e Ti limpo. A microscopia eletrônica de varredura e as microfotografias confocais revelaram diferenças morfológicas entre os osteoblastos cultivados em ambos os revestimentos, aumentando o seu número e o espalhamento. O revestimento de DHP/HAp aumentou a produção de nódulos biomineralizados. O ensaio de biomineralização pela técnica do Vermelho de Alizarina mostrou que o revestimento de OPA/HAp possuía uma concentração de cálcio (Ca2+) 1,88 vezes superior à cobertura de DHP/HAp. Uma vez que a literatura relata que o Ca2+ pode estimular ou inibir a atividade da ALP e, consequentemente, o processo de biomineralização, as diferenças no comportamento desses dois revestimentos podem estar relacionadas às diferenças de concentração de superfície de Ca2+. O bom desempenho do revestimento de DHP/HAp pode estar relacionado às características da composição química, adicionada à técnica de deposição LB. Na segunda fase da pesquisa, as monocamadas de Langmuir de DHP e dipalmitoil fosfatidilcolina (DPPC) foram testadas e utilizadas para incorporar o paratormônio 1-34 (PTH 1-34) (DHP/Ca+PTH e DPPC/Ca+PTH, respectivamente). Também foram testadas as ações dos revestimentos DHP/HAp com PTH em solução (DHP/HAp+PTH S) e gotejado (DHP/HAp+PTH G) em culturas de osteoblastos. Um potencial zeta negativo em pH 7,4 foi encontrado (-14,9 mV) para o PTH 1-34. A isoterma de DPPC mostrou um aumento da área mínima ocupada por molécula lipídica após a injeção de PTH na subfase de água (50 ?L de solução 0,5 mg/mL) em 10,97 Å2, o que pode ser devido à inserção de PTH neste filme. A área mínima de DHP foi alterada em 2,3 Å2, o que não é estatisticamente significativo. A análise de QCM mostrou um depósito de 72,5 ng de PTH em filme de DPPC e 29,3 ng de PTH em filme de DHP para cada 25 ?g de PTH injetado na cuba de Langmuir. A viabilidade celular e a formação da matriz mineralizada de culturas de osteoblastos crescidas em DHP/Ca+PTH e revestimentos DPPC/Ca+PTH diminuíram quando comparadas com Ti limpo. Os revestimentos DHP/HAp+PTH S e DHP/HAp+PTH G mostraram ser tão eficientes quanto o Ti DHP/HAp para estimular o processo de biomineralização. Mas a cobertura de DHP/HAp+PTH G aumentou a viabilidade dos osteoblastos e a formação de matriz mineralizada quando comparada com Ti DHP/HAp. Esta é uma cobertura inovadora que abre precedentes para o uso da técnica de gotejamento em HAp para outros hormônios e drogas que agem sobre o tecido ósseo. / Due to their ability to promote biomineralization, Hydroxyapatite (HAp) coatings are used to increase the osteointegration in titanium (Ti) implants, in order to correct skeletal and craniofacial defects. The objective of the research was to evaluate the influence of the coatings on osteoblasts primary cultures. In the first phase of the research we developed a new coating approach based on Langmuir-Blodgett (LB) films of dihexadecyl phosphate (DHP) and octadecylphosphonic acid (OPA) deposited on Ti discs and subsequent growth of HAp crystals. We analyzed the osteoblast viability, alkaline phosphatase (ALP) activity and mineralized matrix formation by colorimetric methods, and the morphology of the cultures by scanning electron microscopy and confocal micrographies. The results revealed that the DHP/HAp coating increased osteoblast viability up to 150% compared to the control at all days tested. The OPA/HAp coating promoted the highest viability on the 14th day (190%). The ALP activity was enhanced only by the DHP/HAp coating on the 14th day compared to control, and clean Ti. To explore the morphology of the cells, the scanning electron microscopy and confocal micrographies were obtained, and revealed morphological differences between osteoblasts grown on both coated Ti compared to clean Ti. Both coatings increased the number and spreading of osteoblasts, while the DHP/HAp coating enhanced the production of biomineralized nodules. The Alizarin Red assay showed that OPA/HAp coating has 1.88 times higher calcium (Ca2+) concentration than DHP/HAp. The same test confirmed the increase of mineralization only by DHP/HAp coating compared to clean Ti. Since literature reports that Ca2+ can stimulate or inhibit the ALP activity and consequently, the biomineralization process, the differences on the behavior of these two coatings could be related to the Ca2+ surface concentration differences. The good performance of the DHP/HAp coating can be explained due to the characteristics of the chemical composition, added to the LB deposition technique. In the second phase of the research, Langmuir monolayers of DHP and dipalmitoyl phosphatidylcholine (DPPC) was tested and used to incorporate 1-34 parathyroid hormone (PTH 1-34) (DHP/Ca+PTH, and DPPC/Ca+PTH, respectively). DHP/HAp coatings with PTH in solution (DHP/HAp+PTH S), and dropped (DHP/HAp+PTH G) also were tested on osteoblasts cultures. A negative zeta-potential at pH 7.4 was found (-14.9 mV) to PTH 1-34. The Langmuir isotherm of DPPC showed an increase of the minimum area occupied per lipid molecule after the PTH injection into the water subphase (50 ?L of 0.5 mg/mL solution) by 10.97 Å2, which could be due to the insertion of PTH in this film. The DHP minimum area changed by 2.3 Å2, which is not statistically significant. The QCM analysis showed the deposit of 72.5 ng of PTH on DPPC film, and 29.3 ng of PTH on DHP film for each 25 ?g of PTH injected into the Langmuir trough. The cell viability and matrix mineralization of osteoblasts cultures grown on DHP/Ca+PTH, and DPPC/Ca+PTH coatings decreased when compared to clean Ti. DHP/HAp+PTH S and DHP/HAp+PTH G coatings proved to be as efficient as Ti DHP/HAp to stimulate the biomineralization process. But DHP/HAp+PTH G increased the osteoblast viabilitiy and formation of mineralized matrix when compared to Ti DHP/HAp. This is an innovative coating that sets the precedent for the use of the drip technique on HAp for other hormones and drugs that act on bone tissue. Coberturas de Ti DHP DHP DPPC DPPC Filmes de Langmuir-Blodgett Fosfolipídios Langmuir-Blodged film Mineralização Mineralization OPA OPA Osteoblast Osteoblastos Parathyroid hormone Paratormônio Phospholipids Ti coating
166	Phospholipid membranes in biosensor applications : Stability, activity and kinetics of reconstituted proteins and glycolipids in supported membranes Gustafson, Inga January 2004 (has links) <p>In this study the formation of supported membranes onto planar solid supports has been investigated. The stability and activity of reconstituted membrane receptors has been studied. The potential use of such preparations in biosensor applications is discussed.</p><p>The lipid films were made by the Langmuir Blodgett and by the liposome fusion techniques. These supported films were characterised by ellipsometry, atomic force microscopy, surface plasmon resonance (SPR) and resonant mirror techniques. The thickness of the films was in agreement with that of a cell membrane. The kinetics of formation of the lipid films was studied and discussed.</p><p>The proteins, bacteriorhodopsin, cytochrome oxidase, acetylcholinesterase and the nicotinic acetylcholine receptor were reconstituted into the supported membrane. The subsequent analysis showed that the proteins were individually distributed and that the activity was retained, in some cases for several weeks after immobilisation.</p><p>The glycolipids, GM1, GM2, GD1b, asialo-GM1, globotriaosylceramide, lactosylceramide and galactosylceramide, were also reconstituted into the supported membranes. Their specific interaction with the toxin ricin or with its B-chain was examined using SPR. The affinity of intact toxin and of its B-chain differed markedly and was pH dependent. The carbohydrate chain length and charge density of the glycolipids also influenced the affinity.</p> Biochemistry Phospholipid films Liposomes Membrane proteins Glycolipids Ellipsometry Langmuir Blodgett (LB) Surface plasmon resonance (SPR) Resonant mirror (RM) Atomic force microscopy (AFM) Biosensors Biokemi Biochemistry Biokemi
167	Films nématiques minces sur substrats liquides Delabre, Ulysse 10 November 2009 (has links) (PDF) Ce travail de thèse analyse l'organisation des films de cristaux liquides nématiques sur substrats liquides (eau et glycérol). Dans ce cas, l'ancrage planaire au niveau du substrat liquide est plus fort que l'ancrage homéotrope à l'interface libre. En dessous d'une épaisseur critique de l'ordre de 0.5-0.6 µm, des stries qui correspondent à une modulation de l'orientation du directeur, apparaissent. La longueur d'onde de ces stries est largement supérieure à l'épaisseur du film. Nous avons analysé la situation spécifique des films très minces et montré qu'une phase striée existait pour des films plats jusqu'à des épaisseurs de l'ordre de 20-40 nm. La pertinence de l'introduction des termes élastiques dits de surface (K24 et K13) dans l'analyse théorique des stries a été discutée. Sur l'eau, les films nématiques coexistent avec une tricouche de molécules dont l'organisation est régie par des interactions à très courte portée avec le substrat. Les gradients d'épaisseur présents en bord de film empêchent la formation de stries. Des mesures statiques et dynamiques de l'énergie d'un bord de film ont été effectuées. Il semble alors que le film nématique puisse accommoder un état distordu grâce à la formation de stries bien en dessous de l'épaisseur critique de transition de confinement. Enfin, une étude du processus de coalescence contrôlée par la tension de ligne a permis de mettre en évidence deux régimes de dissipation : aux temps courts la dissipation s'effectue en surface alors qu'aux temps longs, la dissipation se fait principalement dans la sous-phase. Une analyse en loi d'échelle permet de rendre compte de la dynamique observée expérimentalement. [PHYS:COND] Physics/Condensed Matter Nématique Tension de ligne Coalescence Termes élastiques de surface Cuve de Langmuir-Blodgett Ancrage
168	Hydrophobic surfaces: Effect of surface structure on wetting and interaction forces Hansson, Petra M January 2012 (has links) The use of hydrophobic surfaces is important for many processes both in nature and industry. Interactions between hydrophobic species play a key role in industrial applications such as water-cleaning procedures and pitch control during papermaking but they also give information on how to design surfaces like hydrophobic mineral pigments. In this thesis, the influence of surface properties on wetting and interaction forces has been studied. Surfaces with close-packed particles, pore arrays, randomly deposited nanoparticles as well as reference surfaces were prepared. The atomic force microscope (AFM) was utilized for force and friction measurements while contact angles and confocal Raman microscopy experiments were mainly used for wetting studies. The deposition of silica particles in the size range of nano- to micrometers using the Langmuir-Blodgett (LB) technique resulted in particle coated surfaces exhibiting hexagonal close-packing and close to Wenzel state wetting after hydrophobization. Force measurements displayed long-range interaction forces assigned to be a consequence of air cavitation. Smaller roughness features provided larger forces and interaction distances interpreted as being due to fewer restrictions of capillary growth. Friction measurements proved both the surface structure and chemistry to be important for the observed forces. On hydrophobic pore array surfaces, the three-phase contact line of water droplets avoided the pores which created a jagged interface. The influence of the pores was evident in the force curves, both in terms of the shape, in which the three-phase contact line movements around the pores could be detected, as well as the depth of the pores providing different access and amount of air. When water/ethanol mixtures were used, the interactions were concluded to be due to ethanol condensation. Confocal Raman microscopy experiments with water and water/ethanol mixtures on superhydrophobic surfaces gave evidence for water depletion and ethanol/air accumulation close to the surface. Force measurements using superhydrophobic surfaces showed extremely long-range interaction distances. This work has provided evidence for air cavitation between hydrophobic surfaces in aqueous solution. It was also shown that the range and magnitude of interaction forces could, to some extent, be predicted by looking at certain surface features like structure,roughness and the overall length scales. / <p>QC 20121011</p> hydrophobic surface superhydrophobic surface atomic force microscopy surface forces capillary forces cavitaion surface roughness friction wetting confocal Raman contact angles surface preparation Langmuir-Blodgett
169	Phospholipid membranes in biosensor applications : Stability, activity and kinetics of reconstituted proteins and glycolipids in supported membranes Gustafson, Inga January 2004 (has links) In this study the formation of supported membranes onto planar solid supports has been investigated. The stability and activity of reconstituted membrane receptors has been studied. The potential use of such preparations in biosensor applications is discussed. The lipid films were made by the Langmuir Blodgett and by the liposome fusion techniques. These supported films were characterised by ellipsometry, atomic force microscopy, surface plasmon resonance (SPR) and resonant mirror techniques. The thickness of the films was in agreement with that of a cell membrane. The kinetics of formation of the lipid films was studied and discussed. The proteins, bacteriorhodopsin, cytochrome oxidase, acetylcholinesterase and the nicotinic acetylcholine receptor were reconstituted into the supported membrane. The subsequent analysis showed that the proteins were individually distributed and that the activity was retained, in some cases for several weeks after immobilisation. The glycolipids, GM1, GM2, GD1b, asialo-GM1, globotriaosylceramide, lactosylceramide and galactosylceramide, were also reconstituted into the supported membranes. Their specific interaction with the toxin ricin or with its B-chain was examined using SPR. The affinity of intact toxin and of its B-chain differed markedly and was pH dependent. The carbohydrate chain length and charge density of the glycolipids also influenced the affinity. Biochemistry Phospholipid films Liposomes Membrane proteins Glycolipids Ellipsometry Langmuir Blodgett (LB) Surface plasmon resonance (SPR) Resonant mirror (RM) Atomic force microscopy (AFM) Biosensors Biokemi Biochemistry Biokemi
170	Characterization, Mechanism and Kinetics of Phase-separation of Mixed Langmuir-Blodgett Films Qaqish, Shatha Eid 16 April 2009 The phase separation of mixed Langmuir-Blodgett (LB) monolayers was investigated using a combination of atomic force microscopy (AFM), X-ray photoelectron emission microscopy (X-PEEM) and confocal fluorescent microscopy measurements. Shapes of phase-separated domains that formed on solid substrate surfaces depended on a competition between line tension and dipole-dipole interactions. In the mixed LB film of arachidic acid (C19H39COOH) (C20) and perfluorotetradecanoic acid (C13F27COOH) (F14), the components phase separated into elevated hexagonal domains of C20 surrounded by a continuous domain primarily consisting of F14. The underlying molecular arrangement of C20 was found to be an oblique packing. The domains in this system grew via Ostwald ripening and the kinetics of their growth was modeled by twodimensional LifshitzSlyozov equation. In the stearic acid (C17H35COOH) (C18) and F14 mixed films, the C18 domains formed a linear pattern where the F14 molecules filled the areas in between the lines occupied by C18. For the mixed film of palmitic acid (C15H31COOH) (C16) and perfluorooctadecanoic acid (C17F35COOH) (F18), the surfactants phaseseparated into elevated hexagonal domains with hairy extensions radiating from them. These domains were composed of F18 and surrounded by C16. Ostwald ripening was found to be the mechanism of domain growth. Phase separation was controlled by different forces such as line tension and dipole interactions, as well as the diffusion of the molecules, solubility of the surfactant in the sub-phase, temperature and surface pressure. Simple mechanisms regarding phase separation and pattern formation were discussed in these mixed systems. It was observed that all fatty acid / F14 systems in this study were immiscible at all molar fractions examined. The fatty acid / F18 systems were immiscible at short chains of fatty acids (myristic acid (C13H27COOH) C14, C16, C18), whereas at longer fatty acid chains (C20, C22 behenic acid (C21H43COOH)) the components of the mixed system became miscible. When perfluorocarboxylic acid chain combined with fatty acids, the domains changed from large hexagonal domains into narrow lines as the fatty acid chain decreased in length. Monolayer Isotherm Adhesion Kinetics Compositional Mapping Fluorocarbon Hydrocarbon Mechansim Ostwald Ripening Lifshitz-Slyozov equation Diffusion Topography Atomic force microscopy Composition Phase-separation Langmuir-Blodgett

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