Preparation of phenyl‐functionalized magnetic mesoporous silica microspheres for the fast separation and selective enrichment of phenyl‐containing peptides

Peptide enrichment before mass spectrometry analysis is essential for large‐scale peptidomic studies, but challenges still remain. Herein, magnetic mesoporous silica microspheres with phenyl group modified interior pore walls were prepared by a facile sol–gel coating strategy, and were successfully applied for selective enrichment of phenyl‐containing peptides in complex biological samples. The newly prepared nanomaterials possessed abundant silanol groups in the exterior surface and numerous phenyl groups in the interior pore walls, as well as a large surface area (592.6 m²/g), large pore volume (0.33 cm³/g), uniform mesopores (3.8 nm), strong magnetic response (29.3 emu/g), and good dispersibility in aqueous solution. As a result of the unique structural properties and size‐exclusion effect, the core–shell phenyl‐functionalized magnetic mesoporous silica microspheres exhibited excellent performance in fast separation and selective enrichment of phenyl‐containing peptides, and the adsorption capacity for bradykinin reached 22.55 mg/g. In addition, selective enrichment of phenyl‐containing peptides from complex samples that are consist of peptides, large proteins, and human serum were achieved by using the as‐prepared microspheres, followed by high‐performance liquid chromatography with ultraviolet detection and electrospray ionization quadrupole time‐of‐flight mass spectrometry analysis. These results demonstrated the as‐prepared microspheres would be a potential candidate for endogenous phenyl‐containing peptides enrichment and biomarkers discovery in peptidome analysis.