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Interdependent lateral interactions, hydrophobicity and acid strength and their influence on the catalytic activity of nanoporous sulfonic acid silicas

Dacquin, J-P., Cross, H.E., Brown, D.R., Duren, T., Williams, J., Lee, Adam F. and Wilson, K. (2010) Interdependent lateral interactions, hydrophobicity and acid strength and their influence on the catalytic activity of nanoporous sulfonic acid silicas. Green Chemistry, 12 (8). pp. 1383-1391. ISSN 1463-9262

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Abstract

A series of propylsulfonic (MCM–SO3H) and octyl co-functionalised propylsulfonic (MCM–Oc–SO3H) catalysts have been prepared by post modification of MCM-41 with mercaptopropyltrimethoxysilane (MPTS) to achieve SO3H surface coverages spanning the range 0.12–1 monolayer. Within the MCM–Oc–SO3H series, samples with submonolayer MPTS coverages were further grafted with octyltrimethoxysilane to cap bare hydroxyl sites and tune the hydrophobicity of the support. For the MCM–SO3H series NH3 calorimetry revealed acid strength increases as a function of sulfonic acid loading, with -Hads(NH3) increasing from 87 to 118 kJ mol-1. In contrast, MCM–Oc–SO3H exhibits a dramatic enhancement of acid strength for submonolayer SO3H coverages, with -Hads(NH3) found to increase to 103 kJ mol-1. In line with these acid strength measurements the per-site activity of the MCM–SO3H series in the esterification of butanol with acetic acid was found to increase with SO3H content. Incorporation of octyl groups further promotes esterification activity of all the samples within the MCM–Oc–SO3H series, such that the turn over frequency of the sample with the lowest loading of SO3H more than doubles. Molecular dynamic simulations indicate that the interaction of isolated sulfonic acid groups with the pore walls is the primary cause of the decrease in acid strength and activity of submonolayer samples within the MCM–SO3H series. Incorporation of octyl groups results in a combination of increased hydrophobicity and lateral interactions between adjacent sulfonic acid head groups, resulting in a striking enhancement of acid strength and esterification activity

Item Type: Article
Subjects: Q Science > QD Chemistry
Schools: School of Applied Sciences
School of Applied Sciences > Materials and Catalysis Research Centre
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Depositing User: Graham Stone
Date Deposited: 08 Jul 2010 14:20
Last Modified: 22 Sep 2010 12:03
URI: http://eprints.hud.ac.uk/id/eprint/8088

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