Resumen:
ayered double hydroxides (LDHs) and Zn layered hydroxide salts (LHSs) present different physicochemical and interfacial properties derived from their dissimilar structure and composition, which affect the release behavior of the intercalated drug. In this work, these aspects are studied using LDHs and LHSs intercalated with ibuprofen (Ibu), naproxen (Nap) or ketoprofen (Ket) to understand the behavior of intercalation compounds as drug carriers. The structure of the solids and the interaction mode between the drugs and the layers were determined by chemical analysis, PXRD, FTIR and NMR. Further, the interfacial properties (potential zeta and hydrophilic/hydrophobic character) of the solids, as well as their drug release profiles were also comparatively studied. The drugs were attached by electrostatic interactions to LDH layers while coordinate bond was produced in the case of LHSs. The different interaction modes, together with the higher drug density between LHS layers produced more