Support enhanced α-pinene isomerization over HPW/SBA-15

Frattini, Lucia; Isaacs, Mark A.; Parlett, Christopher M.A.; Wilson, Karen; Kyriakou, Georgios and Lee, Adam F. Support enhanced α-pinene isomerization over HPW/SBA-15. Applied Catalysis B: Environmental, 200 , pp. 10-18.

Abstract

A family of mesoporous SBA-15 supported H3PW12O40 (HPW) catalysts were synthesized by wet-impregnation and compared with fumed silica analogues for the solventless isomerization of α-pinene under mild conditions. Structural and acidic properties of supported HPW materials were characterized by powder XRD, HRTEM, XPS, TGA, N2 porosimetry, DRIFTS, and ammonia and propylamine chemisorption and TPD. The high area, mesoporous SBA-15 architecture facilitates the formation of highly dispersed (isolated or low dimensional) HPW clusters and concomitant high acid site densities (up to 0.54 mmol g−1) relative to fumed silica wherein large HPW crystallites are formed even at low HPW loadings. α-Pinene exhibits a volcano dependence on HPW loading over the SBA-15 support due to competition between the number and accessibility of acid sites to the non-polar reactant, with the superior acid site accessibility for HPW/SBA-15 conferring a 10-fold rate enhancement with respect to HPW/fumed silica and pure HPW. Monocyclic limonene and terpinolene products are favoured over polycyclic camphene and β-pinene by weaker polyoxometallate analogues over SBA-15.

Publication DOI: https://doi.org/10.1016/j.apcatb.2016.06.064
Dataset DOI: https://doi.org/10.17036/b0698e30-167f-4bdd-a573-f7192b1d7281
Divisions: Engineering & Applied Sciences > Chemical engineering & applied chemistry
Engineering & Applied Sciences
Engineering & Applied Sciences > European Bioenergy Research Institute (EBRI)
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Additional Information: © 2016 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/) Funding: EPSRC (EP/K000616/2; EP/K014749/1 and EP/M005186/1), Royal Society, and British Council under the Global Innovation Initiative for the GB3-net project. Supplementary data available on the journal website.
Uncontrolled Keywords: heteropolyacid,phosphotungstic acid,SBA-15,α-pinene,Catalysis,Process Chemistry and Technology,Environmental Science(all)

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