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Une stratégie d'étude conjointe par RMN du solide et par calorimétrie différentielle à balayage (DSC) est mise en place. Les résultats montrent que d'autres facteurs que la compartimentalisation (polymorphisme, dynamique moléculaire des composés hôtes) doivent également être pris en compte pour la compréhension des propriétés de ces matériaux très hétérogènes. Malgré le recours à une instrumentation RMN de dernière génération (spectromètre 1GHz, sonde MAS 1.3mm), la présence de principe actif est observée uniquement dans les compartiments de tensioactif. Ces résultats permettent d'émettre de nouvelles hypothèses sur la distribution du principe actif, une voie de développement de formulations médicamenteuses novatrices passe par la vectorisation de principes actifs connus dans des nanoparticules. Des matériaux hybrides sont ainsi formés, possédant de nouvelles propriétés liées au nano-confinement ,