High-temperature chemical and microstructural transformations of an organic–inorganic nanohybrid captopril intercalated Mg–Al layered double hydroxide

The thermal evolution of a crystalline organic–inorganic nanohybrid captopril intercalated Mg–Al layered double hydroxide (LDH) [Mg0.68Al0.32(OH)2] (C9H13NO3S)0.130(CO3)0.030·0.53H2O obtained by coprecipitation method is studied based upon in situ high-temperature X-ray diffraction, in situ infrared and thermogravimetric analysis coupled with mass spectroscopy analysis. The results reveal that a metastable quasi-interstratified layered nanohybrid involving carbonate-LDH and reoriented less ordered captopril-LDH was firstly observed as captopril-LDH heat-treated between 140 and 230 °C. The major decomposition/combustion of interlayer organics occur between 270 and 550 °C. A schematic model on chemical and microstructural evolution of this particular drug-inorganic nanohybrid upon heating in air atmosphere is proposed.