Regulation role of ibuprofen toward the morphology of porous silica nanospheres during its in situ encapsulation

In this work, in situ encapsulation of ibuprofen (IBU) was explored preliminarily using the emulsion sol–gel method. IBU-containing porous silica nanospheres (300–400 nm) of varied morphologies were fabricated simply by tailoring the amount of IBU in the starting solution. In the reaction system, IBU exists in the form of IBU− under basic conditions, which has strong electrostatic interaction with CTA+, and thus could be regarded as cosurfactant to regulate the morphology and structure of silica nanospheres. Such morphology can be maintained even after calcination or IBU release in phosphate-buffered saline. The current results may shed light on the design and construction of new functional nanoarchitectures, which may be useful for drug delivery, separation, adsorption, catalysis, etc.

Graphical abstractIBU-containing porous silica nanospheres of varied morphologies were fabricated simply by tailoring the amount of IBU in the starting solution by employing the emulsion sol–gel method.Figure optionsDownload full-size imageDownload high-quality image (181 K)Download as PowerPoint slide