Issue 32, 2015

Reversible control of pore size and surface chemistry of mesoporous silica through dynamic covalent chemistry: philicity mediated catalysis

Abstract

Here, we report the synthesis of adaptive hybrid mesoporous silica having the ability to reconfigure its pore properties such as pore size and philicity in response to the external environment. Decyl chains were reversibly appended to the pore walls of silica through imine motifs as dynamic covalent modules to switch the pore size and philicity in response to pH. This switching of pore properties was used to gate the access of reactants to the gold nanoparticles immobilized inside the nanopores, thus enabling us to turn-on/turn-off the catalytic reaction. The use of such dynamic covalent modules to govern pore properties would enable the realization of intelligent hybrids capable of controlling many such chemical processes in response to stimuli.

Graphical abstract: Reversible control of pore size and surface chemistry of mesoporous silica through dynamic covalent chemistry: philicity mediated catalysis

Supplementary files

Article information

Article type
Communication
Submitted
06 May 2015
Accepted
11 Jun 2015
First published
15 Jun 2015

Nanoscale, 2015,7, 13358-13362

Author version available

Reversible control of pore size and surface chemistry of mesoporous silica through dynamic covalent chemistry: philicity mediated catalysis

D. K. Singh, B. V. V. S. Pavan Kumar and M. Eswaramoorthy, Nanoscale, 2015, 7, 13358 DOI: 10.1039/C5NR02959G

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