Thermal Stability and Photostability of Highly Confined Molecular Nanocomposites

Abstract: Capillary rise infiltration of molecular glasses into self-assembled layers of rigid nanoparticles (NPs) can produce highly confined molecular nanocomposite films (MNCFs). Here, we investigate the thermal stability and photostability of MNCFs made by confining indomethacin glasses in silica NPs. We demonstrate increasing confinement decreases the rate of thermal degradation and increases the activation energy of degradation (up to ∼70 kJ/mol in 11 nm NPs, ∼3 nm pore size). Upon UV exposure under nitrogen, phot… Show more