Abstract
Theoretical calculations and solid-state NMR have been used to determine the conformation, relative energies, and behavior of organic functional groups covalently bound within the pores of mesoporous silica nanoparticles (MSNs). The calculations were performed using the ReaxFF reactive force field for model surfaces consisting of a four-layer silica slab with one or two functional groups: N-(2-aminoethyl)-3-aminopropyl- (AAP), N-[N-(2-aminoethyl)-2-aminoethyl]-3-aminopropyl- (AEP), or 3-cyanopropyl- (CP). The results indicate that the AAP and AEP groups exist primarily in the prone orientation, while CP can almost equally occupy both the prone and upright orientations in CP-MSN. This is in agreement with the solid-state 13C NMR experiments, which suggest that the AAP and AEP functionalities remain rigid on the NMR time scale (in this case sub-millisecond), whereas the CP substituent executes faster motions. These conformations are most likely governed by the hydrogen bonds between the amine moieties of th...
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