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I. Tableau, Comparaison entre les polymères amphiphiles et leurs analogues moléculaires

I. Tableau, Diméthylaminoalkyl(méth)acrylamides I (monomères précurseurs), p.52

I. Tableau, Synthèse des prépolymères III utilisés dans la méthode 1, p.53

I. Tableau, Méthode n°2 : les monomères sels quaternaires amphiphiles IV obtenus à partir des monomères précurseurs I, p.57

I. Tableau and I. , Méthode n°2 : polymères amphiphiles II, série PAA, obtenus par polymérisation de monomères amphiphiles, p.60

I. Tableau and I. , Méthode n°2 : polymères amphiphiles II, série PMAA, obtenus par polymérisation de monomères amphiphiles, p.61

I. Tableau, Amphiphiles moléculaires modèles synthétisés, p.63

I. Tableau, Tests de solubilité à froid des polymères précurseurs III, p.64

I. Tableau, Masses molaires de polymères précurseurs III déterminées par, p.66

I. Tableau, Polymères amphiphiles cationiques étudiés pour leurs propriétés en solution, p.82

I. Tableau, Variation de la viscosité réduite ? red avec la concentration en polyEAAC10 dans les mélanges alcool/eau à 30°C, Figures III-2a à III-4a

I. Tableau, Variation de la teneur minimale en eau ? dans la série polyEAACn en fonction de la longueur de la chaîne alkyle et de la nature de l'alcool utilisée comme solvant de départ, p.96

I. Tableau, Exemples de rotors moléculaires fluorescents, p.102

I. Tableau, Évolution des paramètres d'émission de fluorescence du pyrène et du DMAC en fonction de la concentration (échelle log.) en motifs amphiphiles des polyEAACn, Température=30°C) .......107

I. Tableau, Évolution des paramètres d'émission de fluorescence du pyrène et du DMAC en fonction de la concentration (échelle log.) en motifs amphiphiles des polyPAACn (solvant : eau/éthanol, Température=30°C) .......109

I. Tableau, Évolution des paramètres d'émission de fluorescence du pyrène et du DMAC en fonction de la concentration (échelle log.) en motifs amphiphiles des polyPMAACn (solvant : eau/éthanol, Température=30°C) .......111

I. Tableau, P. Température, and 3. , Valeurs de I 1 /I 3 au palier final et de ?(I 1 /I 3 ) d'abaissement maximum de polarité caractéristiques de l'émission de fluorescence du pyrène dans les solutions aqueuses (eau, p.114

I. Tableau and 3. Température, I 1 /I 3 ) et ?? et d'augmentation de cohésion (rdt quantique) des micro-domaines pour 3 couples de polymères amphiphiles différant par la longueur de leur chaîne alkyle latérale et le segment espaceur E ou P, p.118

I. Tableau and 3. La-température-de, Effet du segment espaceur E ou P sur les caractéristiques d'émission de fluorescence du pyrène et du DMAC pour 3 couples de polymères amphiphiles en solution aqueuse eau / éthanol, p.119

I. Tableau and D. Du, Effet d'un groupe méthyle latéral à l'enchaînement polymère principal sur l'évolution des paramètres de fluorescence du pyrène et, p.120

I. Tableau and 3. Température, I 1 /I 3 ) et ?? et d'augmentation de cohésion (rdt quantique) des micro-domaines pour 1 couple de polymères amphiphiles différant par la présence d'un groupe méthyle latéral à l'enchaînement polymère principal, p.120