Journal
APPLIED CATALYSIS A-GENERAL
Volume 387, Issue 1-2, Pages 155-165Publisher
ELSEVIER
DOI: 10.1016/j.apcata.2010.08.019
Keywords
Selective hydrogenation; m-Dinitrobenzene; Reductive deposition of Au on Ni; Au/Al2O3; Ni/Al2O3; Au-Ni/Al2O3
Categories
Funding
- EPSRC [0231 110525]
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The gas phase hydrogenation of m-dinitrobenzene (m-DNB) has been investigated over alumina supported Au (1 mol%), Ni (10 mot%) and Au-Ni (Au/Ni mol ratio = 1/10). Au/Al2O3 delivered a time invariant exclusive formation of m-nitroaniline (partial reduction), Ni/Al2O3 promoted total nitro-group reduction to give m-phenylenecliamine as the sole product and Au-Ni/Al2O3 generated both products (partial and complete hydrogenation); Ni/Al2O3 and Au-Ni/Al2O3 exhibited a temporal decline in activity. A physical mixture of Au/Al2O3 + Ni/Al2O3 delivered a hydrogenation rate and product composition that was equivalent to that obtained with Ni/Al2O3, i.e. Au/Al2O3 had a negligible contribution to the catalytic process, which was governed by the Ni component in the mixture. The catalysts have been characterized in terms of temperature-programmed reduction (TPR). H-2 chemisorption/temperature-programmed desorption (TPD). BET area/pore volume, X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), diffuse reflectance UV-vis (DRS UV-vis) and HRTEM-EDX measurements. The presence of zero valent Au and Ni is established post-TPR where EDX mapping has revealed a close surface proximity of both metals (mean particle size = 9 nm) in Au-Ni/Al2O3 with evidence (from XPS) of electron donation from Ni to Au. While the addition of All to Ni/Al2O3 served to suppress H-2 chemisorption post-TPR. H-2-TPD revealed a more facile release of a greater amount of hydrogen from Au-Ni/Al2O3 relative to Ni/Al2O3, which we attribute to surface Au-Ni interaction that is also manifest in the hydrogenation activity/selectivity response. Our results establish the feasibility of controlling product distribution through the application of mono- (Au or Ni) and bimetallic (Au-Ni) catalysts. (C) 2010 Elsevier B.V. All rights reserved.
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