1. International Journal of Molecular Sciences / Hybrid Porous Microparticles Based on a Single Organosilica Cyclophosphazene Precursor
- Author
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Poscher, Vanessa, Pappas, George S., Brüggemann, Oliver, Teasdale, Ian, and Salinas, Yolanda
- Subjects
degradability ,hybrid materials ,cyclophosphazenes ,post-functionalization ,porous organosilica microparticles - Abstract
Porous organosilica microparticles consisting of silane-derived cyclophosphazene bridges were synthesized by a surfactant-mediated sol-gel process. Starting from the substitution of hexachlorocyclotriphosphazene with allylamine, two different precursors were obtained by anchoring three or six alkoxysilane units, via a thiol-ene photoaddition reaction. In both cases, spherical, microparticles (size average of ca. 1000 nm) with large pores were obtained, confirmed by both, scanning and transmission electron microscopy. Particles synthesized using the partially functionalized precursor containing free vinyl groups were further functionalized with a thiol-containing molecule. While most other reported mesoporous organosilica particles are essentially hybrids with tetraethyl orthosilicate (TEOS), a unique feature of these particles is that structural control is achieved by exclusively using organosilane precursors. This allows an increase in the proportion of the co-components and could springboard these novel phosphorus-containing organosilica microparticles for different areas of technology. (VLID)5689376 Version of record
- Published
- 2020