Control of Drug Release through the In Situ Assembly of Stimuli‐Responsive Ordered Mesoporous Silica with Magnetic Particles

A site‐selective controlled delivery system for controlled drug release is fabricated through the in situ assembly of stimuli‐responsive ordered SBA‐15 and magnetic particles. This approach is based on the formation of ordered mesoporous silica with magnetic particles formed from Fe(CO)₅ via the surfactant‐template sol‐gel method and control of transport through polymerization of N‐isopropyl acrylamide inside the pores. Hydrophobic Fe(CO)₅ acts as a swelling agent as well as being the source of the magnetic particles. The obtained system demonstrates a high pore diameter (7.1 nm) and pore volume (0.41 cm³ g^?1), which improves drug storage for relatively large molecules. Controlled drug release through the porous network is demonstrated by measuring the uptake and release of ibuprofen (IBU). The delivery system displays a high IBU storage capacity of 71.5 wt %, which is almost twice as large as the highest value based on SBA‐15 ever reported. In vitro testing of IBU loading and release exhibits a pronounced transition at around 32 °C, indicating a typical thermosensitive controlled release.