Puar Zhi Liang Terence scite author profile

Puar Zhi Liang Terence

2Publications

62Citation Statements Received

141Citation Statements Given

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140

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National University of Singapore

Publications

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Promotion of the Water‐Gas‐Shift Reaction by Nickel Hydroxyl Species in Partially Reduced Nickel‐Containing Phyllosilicate Catalysts

et al. 2016

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The role of surface hydroxyl species generated by partially reduced Ni‐containing phyllosilicate structures (Ni/SiO2P) in promoting the water‐gas‐shift (WGS) reaction and methane suppression was investigated. To analyze the effect of the surface hydroxyl species, Ni/SiO2P catalysts reduced at various temperatures were employed. All the Ni/SiO2P catalysts showed enhanced catalytic performances and methane suppression compared to the conventional Ni/SiO2 catalyst. As revealed by diffuse‐reflectance infrared Fourier transform spectroscopy (DRIFTS), methane suppression could be attributed to the inhibition of the formation of nickel subcarbonyl species, and the promotion of WGS activity was attributed to the involvement of surface hydroxyl species (Ni−OH, 3626 cm−1, and Si−OH, 3740 cm−1). The Ni/SiO2P catalyst reduced at 600 °C showed exceptionally superior performance to the other catalysts in the water‐gas‐shift reaction in terms of turnover frequency (2.79 s−1) and hydrogen formation rates (492.63 μmol H2 g−1 s−1) at 375 °C.

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Back Cover: Promotion of the Water‐Gas‐Shift Reaction by Nickel Hydroxyl Species in Partially Reduced Nickel‐Containing Phyllosilicate Catalysts (ChemCatChem 7/2016)

et al. 2016

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The Cover shows the promotion of the water‐gas‐shift (WGS) reaction by hydroxyl species over partially reduced nickel on silica. In their Full Paper, J. Ashok et al. have investigated the role of surface hydroxyl species generated by partially reduced Ni‐containing phyllosilicate structures in promoting the WGS reaction and methane suppression. The best described catalyst herein showed superior performance when compared to those previously reported, in terms of turnover frequency (2.79 s−1) and hydrogen formation rates (492.63 μmol H2 g−1 s−1) at 375 °C. More information can be found in the Full Paper by J. Ashok et al. on page 1308 in Issue 7, 2016 (DOI: 10.1002/cctc.201501284).

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