The Epoxomicin composite microspheres are highly monodisperse with the diameter about 4.4 μm which are assembled
by nanoparticles of about 30 nm. The surface morphology of the composite microspheres is a porous structure which is similar to that of the porous polymer template microspheres (Additional file 1). These selleck chemicals similar porous microsphere morphologies indicate that the silica nanoparticles are deposited in the matrix of the polymer template in the process of sol-gel reaction of TEOS. Nitrogen adsorption measurement (Figure 2D) shows that the pore structure of composite microspheres is mesoporous. The insert pore size distribution curve shows that the primary, secondary, and tertiary pore diameters are centered at 4.3, 13.3, and 37.1 nm, respectively, indicating that the composite microspheres have hierarchical mesoporous structures on at least three levels. The BET surface area and pore volume are 363.2 m2/g selleck chemicals llc and 0.57 cm3/g, respectively. The mechanism for the formation of a hierarchical mesoporous structure of the composite
microsphere is similar to that of silica microspheres which has been proven in our previous report . The pores at 13.3 and 4.3 nm are formed by the shrinkage of the porous polymer matrix template during calcination and the permeation of the TEOS molecules in the polymer template. The largest pore size, 37.1 nm, is at the grain boundary between silica nanoparticles. Figure 2 SEM images, N 2 adsorption/desorption isotherms, and pore size distributions of the hybrid microspheres. (A-C) SEM images of the porous γ-Fe2O3/Au/mSiO2 hybrid
microspheres with different magnifications. (D) N2 adsorption/desorption isotherms and pore size distributions (the inset figure) of the porous γ-Fe2O3/Au/mSiO2 hybrid microspheres. The detailed inner structures of the composite microspheres have been characterized by TEM. As shown in Figure 3 of the ultramicrotomed microsphere sample, the morphology inside the microspheres is a porous structure with connecting channels similar Epothilone B (EPO906, Patupilone) to that on the surface. Furthermore, several metal nanoparticles about 10 to 20 nm with different image contrast, the black and gray dots, are found to be encapsulated in the whole range of the porous silica matrix, the edge area (Figure 3C) and the central area (Figure 3A). As reported in the literature, amines have been known to act both as stabilizer and as reducing agents for gold nanoparticles. Biffis and Minati reported that the tertiary amine groups could reduce Au(III) to Au(0) .