Global ETD Search

161	Développement de méthodes analytiques de séparation des produits de digestion enzymatique des dérivés de cellulose Farhat, Fatima 12 1900 (has links) La cellulose et ses dérivés sont utilisés dans un vaste nombre d’applications incluant le domaine pharmaceutique pour la fabrication de médicaments en tant qu’excipient. Différents dérivés cellulosiques tels que le carboxyméthylcellulose (CMC) et l’hydroxyéthylcellulose (HEC) sont disponibles sur le commerce. Le degré de polymérisation et de modification diffèrent énormément d’un fournisseur à l’autre tout dépendamment de l’origine de la cellulose et de leur procédé de dérivation, leur conférant ainsi différentes propriétés physico-chimiques qui leurs sont propres, telles que la viscosité et la solubilité. Notre intérêt est de développer une méthode analytique permettant de distinguer la différence entre deux sources d’un produit CMC ou HEC. L’objectif spécifique de cette étude de maitrise était l’obtention d’un profil cartographique de ces biopolymères complexes et ce, par le développement d’une méthode de digestion enzymatique donnant les oligosaccharides de plus petites tailles et par la séparation de ces oligosaccharides par les méthodes chromatographiques simples. La digestion fut étudiée avec différents paramètres, tel que le milieu de l’hydrolyse, le pH, la température, le temps de digestion et le ratio substrat/enzyme. Une cellulase de Trichoderma reesei ATCC 26921 fut utilisée pour la digestion partielle de nos échantillons de cellulose. Les oligosaccharides ne possédant pas de groupements chromophores ou fluorophores, ils ne peuvent donc être détectés ni par absorbance UV-Vis, ni par fluorescence. Il a donc été question d’élaborer une méthode de marquage des oligosaccharides avec différents agents, tels que l’acide 8-aminopyrène-1,3,6-trisulfonique (APTS), le 3-acétylamino-6-aminoacridine (AA-Ac) et la phénylhydrazine (PHN). Enfin, l’utilisation de l’électrophorèse capillaire et la chromatographie liquide à haute performance a permis la séparation des produits de digestion enzymatique des dérivés de cellulose. Pour chacune de ces méthodes analytiques, plusieurs paramètres de séparation ont été étudiés. / Cellulose and its derivatives are used in a wide range of applications, including the pharmaceutical industry for the manufacturing of medicines as inactive additives. Various cellulosic derivatives such as carboxymethylcellulose (CMC) and hydroxyethylcellulose (HEC) are readily available for such use. The degree of polymerization and modification differs from one supplier to the other, according to the origin of the cellulose and its process of chemical modification, conferring on them different physico-chemical properties, such as viscosity and solubility. Our interest is to develop an analytical method that can distinguish between different sources of a given CMC or HEC product. The specific objective of this master’s study was to obtain a fingerprint of these complex biopolymers by developing an enzymatic digestion method to produce smaller oligosaccharides that could be separated by simple chromatographic methods. The digestion was studied as a function of various parameters, such as the composition of the hydrolysis solution, the pH, the temperature, the duration of digestion and the substrate/enzyme ratio. A cellulase enzyme from Trichoderma reesei ATCC 26921 was used for the partial digestion of our samples of cellulose. Since these oligosaccharides do not possess a chromophore or fluorophore, they can’t be detected either by absorbance or fluorescence. It was thus necessary to work out the labeling method for oligosaccharides using various agents, such as 8-aminopyrene-1,3,6-trisulfonic acid (APTS), 3-acetylamino-6-aminoacridine (AA-Ac) and phenylhydrazine (PHN). Finally, the use of capillary electrophoresis and high performance liquid chromatography allowed the separation of the enzymatic digestion products of the cellulose derivatives (CMC and HEC). For each of these analytical separation techniques, several parameters of the separation were studied. Électrophorèse capillaire Fluorescence induite par laser UV-Vis Digestion partielle Produits de digestion enzymatique Acide 8-aminopyrène-1,3,6-trisulfonique Phénylhydrazine Dérivés de cellulose Capillary electrophoresis Laser-induced fluorescence High-performance liquid chromatography Hydrophilic interaction chromatography UV detection Partial digestion Enzymatic digestion products 8-aminopyrene-1,3,6-trisulfonic acid Phenylhydrazine Cellulose derivatives
162	Excited state dynamics of carotenoids in solution and proteins / Excited state dynamics of carotenoids in solution and proteins CHÁBERA, Pavel January 2010 (has links) Time resolved spectroscopy is one of the crucial methods used to study processes on molecular level in biological systems. It is useful especially for monitoring fast processes that take a place in photosynthetic apparatus of photosynthetic organisms, such as electron and energy transfer. The integral parts of photosynthetic apparatus are carotenoids, whose role in the photosynthetic apparatus is not as well explored as it is for chlorophylls. It was proved that carotenoids actively participate in energy transfer processes in photosynthetic antennas. They have a crucial role in protection against excess energy damage. They are also electron donors in both antennas and reaction centers. The fact that photo-physical properties of carotenoids are much different from properties of others organic pigments, complicates studies of their functions in photosynthesis as well as in other biological systems. This thesis employs advanced methods of femtosecond spectroscopy to obtain more information about carotenoid functions in some biological systems and in solution with special focus on carotenoids containing carbonyl group.
163	Desenvolvimento e caracterização de nanopartículas lipídicas contendo topotecano / Development and characterization of lipid nanoparticles containing topotecan SOUZA, Leonardo Gomes 29 October 2010 (has links) Made available in DSpace on 2014-07-29T16:11:46Z (GMT). No. of bitstreams: 1 Leonardo Gomes Souza.pdf: 860880 bytes, checksum: 5c5b771771f0b473b0b9d87f7b7f456b (MD5) Previous issue date: 2010-10-29 / Topotecan (TPT), hydrophilic semisynthetic analogue of camptothecin, is a topoisomerase I inhibitor anticancer agent. Encapsulation of TPT in nanocarriers can protect him from inactivation on plasmatic pH and P-glycoprotein (P-gp) mediated resistance. In this study, solid lipid nanoparticles (SLN) were produced by three different methods: cold high pressure homogenization (CHPH), double emulsion prepare (DEMP) and microemulsion dilution (MMD). Derivative systems from NLS, nanostructured lipid carriers (NLC) were produced only by MMD. Temperature proved to be a limiting factor in producing nanoparticles loaded TPT and must be strictly controlled. Nanoparticles produced by MMD (SLN and NLC) presented best encapsulation efficiency, drug loading and particle size distribution. These particles presented 150 nm average diameter, 0.2 PdI and -45 mV average zeta potential. Despite the hydrophilic drugs encapsulation to be a hard work, lipid nanoparticles loaded TPT presented 6% drug loading and an encapsulation efficiency biggest then 95%. Encapsulation of TPT in lipid nanoparticles sustained drug release by 12 hours and protected the drug from degradation at pH 7,4 at 37°C. Drug nanoencapsulation also increased his citotoxicity on K562 leucemic cells at 2 and 24 hours. There weren t differences between NLC and SLN on release, citotoxicity and stability studies. Threalose was an efficient cryoprotector on lyophilization of SLN and NLC loaded TPT. Lyophilizates NLC and SLN with 15% of threalose stayed stable almost for 30 days. Nanostructured lipid carriers with high topotecan chloridrate loading obtained in this work presented potential to improve clinical efficacy associated with parenteral administration of this important citotoxic drug. / O cloridrato de topotecano (TPT), derivado semi-sintético hidrofílico da camptotecina, é um fármaco antineoplásico inibidor da topoisomerase I. A encapsulação do TPT em nanocarreadores pode protegê-lo da inativação no pH plasmático, além de contornar o problema da resistência celular mediada pela glicoproteína-P (P-gp). No presente trabalho foram produzidas nanopartículas lipídicas sólidas (NLS) contendo TPT por três técnicas diferentes: homogeneização sob alta pressão a frio (HAPF), preparo de emulsão múltipla (PEMM) e diluição de microemulsão (DMM). Sistemas derivados das NLS, os carreadores lipídicos nanoestruturados (CLN) foram produzidos apenas por DMM. A temperatura mostrou-se como fator limitante na produção de nanopartículas contendo TPT, devendo ser rigorosamente controlada. As nanopartículas (NLS e CLN) produzidas por DMM apresentaram melhor eficiência de encapsulação (EE%), distribuição de tamanho de partícula e carga de fármaco. Essas nanopartículas apresentaram tamanho médio em torno de 150 nm, PdI 0,2 e potencial zeta médio de -45 mV. Apesar da encapsulação de fármacos hidrofílicos em matrizes lipídicas ser tarefa difícil, as nanopartículas lipídicas contendo TPT apresentaram carga de fármaco em torno de 6% com EE% maior que 95%. A encapsulação do TPT em nanopartículas lipídicas prolongou sua liberação por 12 horas e protegeu o fármaco da degradação em pH 7,4 a 37°C. A nanoencapsulação do TPT também aumentou sua citotoxicidade em células leucêmicas K562 nos períodos de 2 e 24 horas. Não houve diferenças entre os CLN e as NLS nos estudos de liberação, citotoxicidade e estabilidade. A trealose foi um crioprotetor eficaz na liofilização dos CLN e das NLS contendo TPT. As NLS e os CLN liofilizados com 15% de trealose permaneceram estáveis por pelo menos 30 dias. Os carreadores lipídicos nanoestruturados e as nanopartículas lipídicas sólidas contendo topotecano obtidos no presente trabalho apresentam potencial para melhorar a resposta clínica associada à administração parenteral deste importante fármaco citotóxico. Diluição de microemulsão Nanopartículas lipídicas sólidas Carreadores lipídicos nanoestruturados Cloridrato de topotecano Fármacos hidrofílicos Microemulsion dilution Solid lipid nanoparticles Nanostructured lipid carriers Topotecan chloridrate Hydrophilic drugs CNPQ::CIENCIAS DA SAUDE::FARMACIA
164	Desenvolvimento de métodos por cromatografia líquida acoplada à espectrometria de massas em tandem para análises de fármacos (LC-MS/MS no modo column switching com capilar monolítico de sílica híbrida), aminoácidos e neurotransmissores (HILIC-MS/MS) em amostras de plasma de pacientes esquizofrênicos. / Development of methods for liquid chromatography coupled to tandem mass spectrometry for drug analysis (LC-MS/MS in column switching mode with monolithic capillary hybrid silica), amino acids and neurotransmitters (HILIC-MS/MS) in plasma samples of schizophrenic patients. Diego Soares Domingues 26 August 2015 (has links) A esquizofrenia é um transtorno neuropsiquiátrico crônico que afeta aproximadamente 1% da população mundial. As teorias neurobiológicas descrevem que a esquizofrenia é essencialmente causada por alterações bioquímicas e estruturais do cérebro, devido às disfunções nos sistemas glutamatérgico, dopaminérgico e serotoninérgico. Desta forma, a determinação das concentrações de aminoácidos e neurotransmissores em amostras de plasma de pacientes esquizofrênicos pode auxiliar na avaliação da eficácia da terapia. Além dos antipsicóticos, medicação de primeira linha no tratamento inicial da esquizofrenia, a maioria dos pacientes também faz uso concomitante de outras classes de fármacos, tais como antidepressivos, anticonvulsivantes e ansiolíticos para minimizar os sintomas associados a esta doença. Nesta tese, um método empregando a precipitação de proteínas (PPT) e a cromatografia líquida por interação hidrofílica acoplada à espectrometria de massas em tandem (HILIC-MS/MS) foi adequadamente desenvolvido e validado para a determinação de aminoácidos (aspartato, serina, glicina, alanina, metionina, leucina, tirosina e triptofano) e neurotransmissores (glutamato e ácido -aminobutírico) em amostras de plasma de 35 pacientes esquizofrênicos em tratamento com clozapina (27 pacientes) e olanzapina (8 pacientes) para avaliar a eficácia do tratamento, tendo como controle 38 voluntários sadios. O método HILIC-MS/MS apresentou linearidade do LIQ (9,7 pmol mL-1 - 13,3 nmol mL-1) ao LSQ (19,4 nmol mL-1 - 800 nmol mL-1), tempo de análise de 3,0 min, exatidão com EPR de -18 a 19% e precisão com CV de 0,1 a 16% (LIQ). A análise de variância (ANOVA), seguida por teste post-hoc de Duncan, revelou que os níveis médios plasmáticos (nmol mL-1) de metionina (F2,70 = 3,14, p = 0,049) de pacientes esquizofrênicos em tratamento com olanzapina foram significativamente mais elevados, quando comparados aos valores obtidos com o grupo controle (voluntários saudáveis), já o nível de glutamato em pacientes esquizofrênicos em tratamento com clozapina apresentaram tendência a valores mais altos (F2.70 = 2,50, p = 0,090). Já os métodos, PPT/LC-MS/MS e LC-MS/MS no modo column switching utilizando uma coluna monolítica de sílica híbrida com grupos cianopropil na primeira dimensão, foram desenvolvidos e validados para a determinação dos antipsicóticos (olanzapina, quetiapina, clozapina, haloperidol e clorpromazina), antidepressivos (mirtazapina, paroxetina, citalopram, sertralina, imipramina, clomipramina e fluoxetina), anticonvulsivantes (carbamazepina e lamotrigina), e ansiolíticos (diazepam e clonazepam) em amostras de plasma de pacientes esquizofrênicos para fins de monitorização terapêutica. O método PPT/LC-MS/MS apresentou linearidade do LIQ (0,2 ng mL-1 - 5,0 ng mL-1) ao LSQ (40,5 ng mL-1 - 10,5 g mL-1), exatidão com EPR de -9,7 a 8,0%, e precisão com CV de 0,1 a 12%. Já o método LC-MS/MS no modo column switching apresentou linearidade do LIQ (63,0 pg mL-1 - 1250,0 pg mL-1) ao LSQ (40,5 ng mL-1 - 10,5 g mL-1), exatidão com EPR de -14 a 12% e precisão com CV de 0,6 a 6,5%. A pré-concentração seletiva dos fármacos na coluna monolítica com grupos cianopropil incorporados e a remoção dos componentes endógenos da amostra biológica, antes da separação cromatográfica, favoreceram a seletividade e detectabilidade do método LC-MS/MS no modo column switching. Este método quando comparado ao de referência PPT/LC-MS/MS, através da análise de 10 amostras de pacientes esquizofrênicos, não apresentou diferença significativa (teste t) entre as concentrações plasmáticas, podendo ser aplicado na monitorização terapêutica. Além deste fato, este método automatizado favoreceu a precisão, a exatidão e a freqüência analítica. / Schizophrenia is a chronic neuropsychiatric disorder that affects approximately 1% of the world population. According to neurobiological theories, schizophrenia stems from biochemical and structural alterations in the brain due to dysfunction in the glutamatergic, dopaminergic, and serotonergic systems. Determining the concentrations of amino acids and neurotransmitters in plasma samples from schizophrenic patients may assist evaluation of therapy effectiveness. In addition to antipsychotics (the first-line drug in the initial treatment of schizophrenia), most patients concomitantly use other classes of drugs such as antidepressants, anticonvulsants, and anxiolytics to minimize the symptoms associated with this disease. To evaluate treatment efficacy, in this thesis a method based on protein precipitation (PPT) and hydrophilic interaction liquid chromatography coupled to tandem mass spectrometry (HILIC-MS/MS) has been properly developed and validated to determine amino acids (aspartate, serine, glycine, alanine, methionine, leucine, tyrosine, and tryptophan) and neurotransmitters (glutamate and -aminobutyric acid) in plasma samples obtained from 35 schizophrenia patients treated with clozapine (27 patients) or olanzapine (8 patients); 38 healthy volunteers served as controls. The HILIC-MS/MS method was linear for concentrations ranging from the LLOQ (9.7 pmol mL-1 - 13.3 nmol mL-1) to the ULOQ (19.4 nmol mL-1 - 800 nmol mL-1). The analysis time was 3.0 min. In the case of accuracy, RSE ranged from -18 to 19%. As for precision, CV lay between 0.1 and 16% (LLOQ). Analysis of variance (ANOVA) followed by post-hoc Duncan showed that the average methionine serum levels (nmol mL-1) (F2.70 = 3.14, p = 0.049) in schizophrenic patients treated with olanzapine were significantly higher as compared with the control group (healthy volunteers). The glutamate level in schizophrenic patients treated with clozapine tended to higher values (F2.70 = 2.50, p = 0.090). Concerning the analytical methods, PPT/LC-MS/MS and LC-MS/MS operating in the column-switching mode were developed and validated to determine antipsychotic (olanzapine, quetiapine, clozapine, haloperidol, and chlorpromazine), antidepressants (mirtazapine, paroxetine, citalopram, sertraline, imipramine, clomipramine, and fluoxetine), anticonvulsants (carbamazepine and lamotrigine), and anxiolytics (diazepam and clonazepam) in plasma samples taken from schizophrenic patients for therapeutic drug monitoring. A monolithic hybrid column containing silica with cyanopropyl groups in the first dimension was employed. The PPT/LC-MS/MS method was linear from the LLOQ (0.2 ng mL-1 - 5.0 ng mL-1) to the ULOQ (40.5 ng mL-1 - 10.5 g mL-1). In the case of accuracy, RSE ranged from -9.7 to 8.0%; as for precision, CV lay between 0.1 and 12%. LC-MS/MS in the column-switching mode was linear from the LLOQ (63.0 pg mL-1 - 1250.0 pg mL-1) to the ULOQ (40.5 ng mL-1 - 10.5 g mL-1). RSE ranged from -14 to 12%; CV lay between 0.6 and 6.5%. The drugs were selectively pre-concentrated in the monolithic column containing silica incorporated with cyanopropyl groups. For the LC-MS/MS method operating in the column-switching mode, the endogenous components of the biological sample of the LC-MS/MS method were removed before analysis. Analysis of 10 plasma samples obtained from schizophrenic patients did not reveal any significant differences (t test) between the LC-MS/MS method and the reference PPT/LC-MS/MS method. Therefore, LC-MS/MS can be applied in therapeutic monitoring, with the advantage that this method offers improved precision, accuracy, and analytical frequency. Aminoácidos amostras de plasma antipsicóticos column switching esquizofrenia interação hidrofílica monitorização terapêutica monolito híbrido neurotransmissores Amino acids column switching drugs hybrid monolith hydrophilic interaction neurotransmitters plasma samples schizophrenia therapeutic drug monitoring
165	Synthèse, optimisation et caractérisation des nouvelles architectures catalytiques pour une application en pile à combustible PEMFC / Synthesis, optimization and characterization of new catalyst design for proton exchange membrane fuel cell Dru, Delphine 01 September 2016 (has links) Ces travaux de recherche s'inscrivent dans le développement de nouveaux catalyseurs pour les piles à combustible de type PEMFC. L'objectif est d'améliorer le transfert de charges et de matières au sein des électrodes afin d'améliorer la durabilité des matériaux. Nous avons développé des catalyseurs qui permettent la transposition de la phénoménologie du point triple à l'échelle moléculaire. Le greffage de polymères conducteurs protoniques à la surface de nanoparticules de platine a été réalisé afin d'obtenir des complexes catalytiques nano-composites, comportant le catalyseur au platine, un conducteur protonique et un conducteur électronique. L'ensemble des matériaux issus de cette première étape ont été caractérisé en demi-cellule électrochimique afin de déterminer les catalyseurs les plus actifs et les plus sélectifs. Les matériaux les plus prometteurs ont enfin été testés en mono-cellule PEMFC de 5 cm² et 25 cm² afin de déterminer d'une part les performances in situ et d'autre part la durabilité des matériaux. Les électrodes nano-composites, formulées sans Nafion®, ont des caractéristiques équivalentes aux systèmes commerciaux. En effet, elles fournissent une densité de puissance maximale de 1 W.cm-2 et une durabilité de 20 µV.h-1 sur 300 h. Ces électrodes formulées sans composé fluoré permettent le recyclage du platine par pyrolyse. / This research work is within the scope of new catalysts for PEM fuel cells. The objective is to decrease the platinum amount in the electrode and to promote mass and electronic transfers, in order to improve the durability of the systems. We developed catalysts that enable the implementation of the phenomenology of the triple phase boundary at the molecular scale. The fieldwork concerns the grafting of proton conducting polymers (PSS) on the platinum nanoparticles surface in order to obtain nanocomposite catalysts. All synthetized materials are characterized in electrochemical half-cell, in order to determine the most active and the most selective catalyst. Then, the best catalytic complexes are tested in PEMFC 5 cm² and 25 cm² single-cell to determine in situ performance and materials durability. The properties of the nanocomposites electrodes formulated without Nafion®, are equivalent to commercial systems. Indeed, they provide a maximum power density of 1 W.cm-2 and a durability of 20 µV.h-1 during 300 h. These electrodes formulated without fluorinated compound allow platinum recycling by pyrolysis. Pile à combustible Catalyse Nanoparticules de platine Polymérisation par ATRP Polymères conducteur protonique Polymère hydrophile-Hydrophobe Acide polystyrène sulfonique Poly(2 3 4 5 6-Pentafluorostyrène) Fuel cell Catalysis Platinum nanoparticles ATRP polymerization Proton-Conductive polymers Hydrophobic-Hydrophilic polymers Poly(stryrene sulfonic acid) Poly(2 3 4 5 6-Pentafluorostyrène) 541.395
166	Administration de substances actives dans la peau : rôle de la composition hydrophile de nanoparticules polymériques Lalloz Faivre, Augustine 12 1900 (has links) No description available. Nanoparticules polymériques Acide poly(lactique) PLA Poly(éthylène glycol) PEG Composition hydrophile Absorption cutanée Mécanismes d'interactions Peau lésée Polymeric nanoparticles Poly(lactic) acid PLA Poly(ethylene glycol) PEG Hydrophilic composition Skin absorption Interaction mechanisms Impaired skin
167	Biocompatible Electrospun Vehicles To Enhance the Effectiveness Of Anti-Fertility Strategies And Their Biomimetic Properties As Blood Vessel Scaffolds Chaparro, Francisco Javier 01 June 2018 (has links) No description available. Biomechanics Biomedical Research Chemical Engineering Engineering Materials Science Polymers Polymer Chemistry Plastics Organic Chemistry Nanotechnology Nanoscience Medicine Design
168	Elaboration de composés oléophiles super amphiphiles biosourcés polymorphes rétenteurs et vecteurs d'eau dans les procédés de cure et bitumes / Preparation of polymorphic oleophilic super amphiphiles biobased retainers and vectors of water in the processing of cures and bitumen Nyame Mendendy Boussambe, Gildas 30 April 2015 (has links) Les milieux réactionnels issus de l’étude de la réactivité de deux types de polyols, le glycérol et le diglycérol par réaction d’estérification directe avec l’acide undécylénique, catalysée par l’acide dodécylbenzène sulfonique (ADBS). Les résultats montrent que les ystèmes polyol/acide undécylénique donnent une émulsion eau dans huile (E/H). L’ajout de l’ADBS et de l’eau formée in-situ aux systèmes polyol/acide undécylénique ont permis de réduire la taille des gouttelettes de 50 μm à moins de 1 μm et d’obtenir un système organisé (micro-réacteur). L’augmentation de la température contribue à favoriser le transfert de matière dans les systèmes émulsionnés et / ou gélifiés et d’obtenir un système monophasique, homogène et structurés. L’étude de la réaction de ces systèmes avec une approche site à site (site OH / site COOH) a montré que lorsque le nombre de sites acides carboxyliques est inférieur à celui des sites hydroxyles, la synthèse est totalement sélective en esters partiels des deux polyols (glycérol et diglycérol). Les rendements sont supérieurs respectivement à 60% en esters partiels de glycérol et à 70% en esters partiels de diglycérol. La modélisation de la cinétique de synthèses et la régression des données cinétiques ont montré que la réaction est réversible d’ordre 2 et athermique. Les énergies d’activation calculées sont de 17 kcal/mol et 16 kcal/mol respectivement pour le monoundécénoate de glycérol (MUG) et le diundécénoate de glycérol (DUG). De plus, la méthodologie de recherche expérimentale a montrée que les variables (concentration en catalyseur ADBS et température) permettent d’obtenir le MUG avec un rendement de plus de 60% et une sélectivité en MUG de 80%. Ensuite, l’étude de la réactivité de la double liaison terminale du MUG en présence de deux agents oxydants pour engendrer des molécules bolaamphiphiles simples a été réalisée par H2O2 / acide formique et acide métachloroperbenzoïque (m-CPBA). Les résultats ont montré le 10,11-dihydroxy-monoundécénoate de glycérol (MUGDiol) est obtenu par oxydation au H2O2 / acide formique et le 10,11-époxy-monoundécénoate de glycérol (MUGE) par réaction d’époxydation avec la m-CPBA. L’ouverture de la fonction époxyde par des molécules aminées permet l’observation de nouvelles molécules bolaamphiphiles : le 10-hydroxy-N-11-((2-hydroxyéthyl)amino)monoundécénoate de glycérol(bola éthanolamineglycérol) et le N,N-11-(diaminobutan)-10-hydroxymonoundecanoate de glycérol (bola diaminobutaneglycérol). L’étude des propriétés physico-chimiques de ces molécules amphiphiles et bolaamphiphiles a permis de monter que toutes ces molécules sont de solvo-surfactants actifs aux interfaces et elles réduisent la tension interfaciale de l’eau jusqu’à la limite de la solubilité dans l’eau. L’adsorption des molécules ne vérifie pas le modèle de Gibbs. Le MUG et le MUDG s’auto-assemblent dans l’eau et donnent des nano-objets (vésicules et agrégats plats) et s’adsorbent sur des surfaces polaires et solides (silice et ciment). Ces deux molécules retiennent 30% et 56% molécules d’eau et le nombre de molécules d’eau fortement liée aux têtes polaires est de 21 et 49 respectivement pour le MUG et le MUDG. Pour es molécules bolaamphiphiles pures (MUGE et bola éthanolamineglycérol), elles retiennent plus de 56% de molécules d’eau et se lient à plus 53 molécules d’eau. L’ensemble de ces propriétés physico-chimiques a permis de répondre aux problématiques industrielles et de formuler un produit de cure, un agent de démoulage et un produit anti-adhérent. / This study is of the reactivity of two types of polyols (glycerol and diglycerol) by direct esterification reaction with undecylenic acid from castor oil. This reaction was catalyzed by dodecylbenzene sulfonic acid (DBSA). The first step was to study of polyol / undecylenic acid reaction systems by physico-chemical approach. The result have shown that these systems give water-in-oil (W / O) emulsion. Adding DBSA and water formed in-situ in polyol/undecylenic acid systems have reduced droplet size from 50 microns to less than 1 μm and form an organized system (micro-reactor). Increasing temperature can simplify transfers in emulsified systems and / or melted gel and to get a monophasic and homogeneous system. The only systems and aided by water formed in-situ assists the organization and structuring of gels. The reaction study of these systems was analyzed by gas chromatography. This showed that when the number of carboxylic acid function sites is less than the hydroxyl function site, synthesis is totally selective to partial esters of the two polyols (glycerol and diglycerol). The yields are higher than 60% in partial glycerol esters and 70% in partial diglycerol esters. The kinetic modeling of this synthesis and regression of kinetic data by the software GEPASI showed that the reaction follows the reversible 2 order and it is athermic. The calculated activation energy is 17 kcal/mol for the synthesis of glycerol monoundecenoate (GMU) and 16 kcal/mol for glycerol diundecenoate (GDU), these values are close to the theoretical values and they show that the reaction is happening at room temperature. Moreover, the response of the surface methodology shows that the variables chosen for the present study are temperature and catalyst concentration have a positive effect on the yield of the GMU. This approach was used to determine the optimum conditions for producing the GMU. Second study performed was of the reactivity of the terminal double bond of the GMU in presence of two oxidizing agents H 2 O 2 / formic acid and metachloroperbenzoic acid (m-CPBA), for synthesized bolaamphiphiles molecules was performed. The H 2 O 2 /formic acid was used to oxidize the double bond of GMU in diol function of glycerol 10,11-dihydroxymonoundecenoate (GMUDiol). The m-CPBA epoxidizes the double bond of GMU to give glycerol 10,11-epoxymonoundécénoate (GMUE). The opening of the epoxide function by aminoalcohol molecules are used to generate the new molecules bolaamphiphiles molecules: the bola ethanolamineglycerol and the bola diaminobutaneglycerol. The third step was the stady of the physico-chemical properties of pure amphiphilic and bolaamphiphiles molecules. The result was shown that all molecules are solvo-surfactants molecules and they are active in the interfaces (liquid/air and liquid/solid). The curves of surface tension of water do not respect the Gibbs rule. GMU and DGMU self- assemble in water and give nano-objects (vesicles and aggregates) in diluted solutions. In hydrogel, the molecules self-assemble in lamellar phase. In this lamellar phase, the amount of water retained is 56% and the number of water molecules strongly linked to the polar heads is 49 moles of water/diglycerol monoundecenoate molecule (DGMU). All these physico-chemical properties have permit to respond to industrial problems such as water retention for the curing product, self-assembly for demoulding concrete and for surface anti-adhesion and adsorption and finally foaming required for the aged bitumen regeneration. For pure bolaamphiphiles molecules (GEMU and ethanolamineglycerol bola) reduce the interfacial tension of water to the limit of the solubility of this bola molecules in water but do not provide a critical aggregation concentration (CAC). They retain more water molecules respectively between 56% and 63% water and the number of water molecules strongly bound with two polar heads groups pure bolaamphiphiles molecules is between 42 and 53. Acide gras Acide undécylénique Glycérol Diglycérol Polyol Estérification directe Surfactant Solvo-surfactant Réaction d’époxydation Bolaamphiphile Molécule Auto-assemblage Rétenteur d’eau Hydrogel Colloïdes Activité interfaciale Adsorption liquide/solide Fatty acids Undecylenic acid Glycerol Diglycerol Polyol Polyglycerol Direct esterification reaction Emulsifying system Surfactant Solvo-surfactant Epoxydation reaction Ring opening reaction Bolaamphiphilic molecule Super hydrophilic molecule Self-assembling Water retention Colloids Interfacial activity Adsorption on solid surface

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