Global ETD Search

1	Molecular Insights into the Interactions of Monovalent Cations with Highly charged Fatty Acid Monolayers / Molekylära insikter inom interaktionerna mellan monovalenta katjoner och laddade fettsyramonolager Carlhamn Rasmussen, Ran January 2023 (has links) Vibrational sum frequency spectroscopy har använts för att studera interaktionerna mellan monovalenta joner och laddade fettsyramonolager. Subfasen bestod av utvalda alkalihydroxidsaltlösningar med pH12, med huvudfokus på cesiumjonen. Molekylär information erhölls genom att rikta in sig på vibrationerna hos karboxylsyragruppen, alkylkedjor, och vattenmolekyler i kontakt med monolagret, samt i det diffusa dubbellagret. Ytans laddning uppskattades genom att observera sträckningsvibrationerna hos hydratiserade karboxylat och protonerade karboxylsyror. Ytans potential beräknades utifrån signalresponsen hos vattenmolekylerna i det diffusa dubbellagret. Beteendet hos ytans laddning och potential överensstämmer väl med Gouy-Chapman-teorin för stora områden per molekyl, men avviker avsevärt vid kompression av monolagret. Vid små områden per molekyl, eller hög laddningsdensitet, stämmer resultaten bättre överens med en storleksmodifierad version av Poisson-Boltzmann-teorin. Resultaten från experiment med en cesiumhydroxidsubfas jämfördes med motsvarande experiment med natrium och litium, vilket beskriver cesiumjonen i relation till de andra alkalijonerna vad gäller jonspecifika effekter. Resultaten som har samlats in här ger insikt i hur effektiv jonstorlek kan användas för att modellera och förutsäga jonspecifika effekter med karboxylsyragruppen i ett Langmuir-monolager. / Vibrational sum frequency spectroscopy has been used to study the interactions of monovalent ions with highly charged fatty acid monolayers. The subphase consisted of selected alkali hydroxide salt solutions of pH 12, primarily focusing on the cesium ion. Molecular information was obtained by targeting the vibrational modes of the carboxylic acid headgroups, alkyl chains, and water molecules in the immediate surface and diffuse double layers. The surface charge was estimated by monitoring the stretching modes of the hydrated carboxylate and protonated carboxylic acid. The surface potential was estimated from the signal response of the water molecules in the diffuse double layer. The behaviour of the surface charge and surface potential agrees well with Gouy-Chapman theory for large areas per molecule, but deviates significantly upon monolayer compression. At small areas per molecule or high surface charge density, the results better align with a size-modified version of the Poisson-Boltzmann theory. The results obtained with a cesium hydroxide subphase were compared to equivalent experiments with sodium and lithium, which puts the cesium ion into context with the other alkali ions in terms ion specific effects. The results collected here provide insight into how effective ion size can be used in modelling and predicting ion specific effects with the carboxylic acid moiety in a Langmuir monolayer. VSFS Langmuir monolayer ion specific effects modified Poisson Boltzmann carboxylic acid VSFS Langmuir monolager jonspecifika effekter modifierad Poisson Boltzmann karboxylsyra Physical Chemistry Fysikalisk kemi
2	Effet d’ion specifique sur l’auto-assemblage d’amphiphiles cationiques : des approches experimentale et informatique / Ion specific effects on the self-assembly of cationic surfactants : experimental and computational approaches Malinenko, Alla 12 May 2015 (has links) La présente étude est une approche holistique axée sur l'étude des effets spécifiques d'ions sur les propriétés d'auto-assemblage de tensioactifs cationiques gemini. Notre objectif principal étant l’étude de l'effet de divers contre-ions sur les caractéristiques d’auto-assemblage de tensioactifs cationiques en solution aqueuse. Afin d'obtenir une vision plus complète de l'effet des interactions ioniques et moléculaires à l’interface sur les propriétés globales, nous avons utilisé des approches différentes. Nous avons combiné une étude expérimentale portant sur les propriétés en solution (concentration micellaire critique, degré d'ionisation, nombre d'agrégation, etc.), avec des approches centrées sur l'étude des propriétés micellaires interfaciales en analysant les concentrations des contre-ions et de l'eau de façon expérimentale (piégeage chimique) et informatique (simulations de dynamique moléculaire). En outre, nous avons étudié l'impact de la nature des contre-ions sur la croissance des micelles géantes par rhéologie. En plus de l'examen des propriétés de tensio-actifs en solution, les effets spécifiques d'ions sur les structures cristallines des agents tensioactifs gémini ont été étudiés.Nous avons trouvé que les effets d'ions spécifiques qui déterminent le comportement des agrégats micellaires de gemini cationiques d'ammonium quaternaire dans des solutions aqueuses dépendent fortement de l'énergie libre d'hydratation des contre-ions, en d'autres termes, sur leur propriétés hydrophile /hydrophobe. Contrairement à la solution aqueuse, dans les cristaux, la taille de l'ion devient le facteur déterminant. La comparaison des résultats obtenus pour un même système en solution aqueuse et à l'état solide a montré l'importance des interactions ion-eau dans les effets spécifiques d'ions. Cependant, il faut noter que les propriétés du substrat (les gemini dans notre cas) doivent être prises en compte non moins soigneusement afin de prédire complétement les effets Hofmeister. / The present study is a holistic approach focused on the investigation of ion specific effects on the self-assembly properties of cationic gemini surfactants. Our main focus was on the effect of various counterions on the self-organization features of cationic surfactants in aqueous solution. In order to obtain amore comprehensive understanding of the effect of interfacial ionic and molecular interactions on aggregate properties we used different approaches. We combined an experimental study focused on the bulk solution properties (critical micelle concentration, ionization degree, aggregation number, etc.), with approaches focused on investigating the interfacial micellar properties by analyzing the interfacial counterion and waterconcentrations, experimentally (chemical trapping) and computationally (molecular dynamic simulations). Moreover, the impact of counterion nature was investigated by studying the growth of wormlike micelles using rheology. Besides the examination of the surfactants properties in solution, the ion specific effects onthe crystalline structures of gemini surfactants were studied.We found that ion specific effects which determine the behavior of micellar aggregates of cationic quaternary ammonium gemini in aqueous solutions strongly depend on the free energy of hydration of the counterions, in others words, on their hydrophilic/hydrophobic properties. Contrarily to aqueous solution, in crystals, the size of the ion becomes the determining factor. Comparison of the results obtained for the same system in aqueous solution and in solid state showed the importance of ion-water interactions in ion specific effects. However, one should note that the properties of substrate (the gemini in our case) should be taken into account not less carefully in order to fully predict Hofmeister effects. Effets spécifiques d'ions Auto-assemblage Tensioactifs gemini Micellisation Propriétés interfaciales Piégeage chimique Simulations de dynamique moléculaire Rhéologie Micelles géantes Structure cristalline Ion specific effects Self-assembly Gemini surfactants Micellization Interfacial properties Chemical trapping Molecular dynamic simulations Rheology Wormlike micelles Crystal structure
3	Ion specific effects in polymer conformation / Jonspecifika effekter i polymerkonformation Svanholm, Lovisa, Köttö, Anna, Deuda Lundkvist, Samuel January 2021 (has links) It is well known that ions affect polymers in specific ways not solely based on electric charge, usually referred to as the Hoffmeister effect or ion specific effects. Poly(N-isopropylacrylamid) (PNIPAM) is a thermosensitive polymer with a LCST at 32℃. PNIPAM is a well studied polymer due to its similarities with denaturation of proteins in aqueous solutions. Utilizing diffusion NMR this report studied the effect different Hoffmeister anion concentrations have on the configuration of pre-transitional PNIPAM. A fractionation process was developed for PNIPAM, yielding a product of about 87 000 g/mol, used for diffusion measurements. Diffusion coefficients for PNIPAM in saline solutions ranging from 0 to 800 mM were measured for NaCl, NaClO4, NaSCN and NaI. Diffusion coefficients for PNIPAM were also measured at some concentrations of NaF, Na2SO4 and Na2CO3. Hydrodynamic radius was calculated from the diffusion coefficients. The report found a pre-transitional chain collapse of PNIPAM which increased with ionic concentrations of NaCl, NaClO4, NaSCN, NaF and Na2CO3, but not for NaI and Na2SO4. At 800 mM the hydrodynamic radius decreased with 9% for NaCl, 13% for NaClO4 and 5% for NaSCN. The hydrodynamic radius decreased with 19% at 300 mM Na2CO3 and with 10% at 400 mM NaF. There was a significant decrease in hydrodynamic radius for high concentrations of NaCl and NaClO4 but exact decrease needs to be replicated to validate the findings due to an unexpected large decrease in hydrodynamic radius already at 50 mM. Values for NaF and Na2CO3 should be replicated with internal standard to accomodate for possible precipitation of the longer polymer chains within the fraction. Poly(N-isopropylacrylamid) PNIPAM pre-transitional chain collapse ion specific effects Hoffmeister series LCST diffusion NMR self-diffusion NMR fractionation kosmotropes chaotropes inversion recovery experiment Physical Chemistry Fysikalisk kemi Polymer Chemistry Polymerkemi

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