Shuhei Ogo scite author profile

Catalytic steam reforming of methane for hydrogen production proceeds even at 473 K over 1 wt% Pd/CeO2 catalyst in an electric field, thanks to the surface protonics. Kinetic analyses demonstrated the synergetic effect between catalytic reaction and electric field, revealing strengthened water pressure dependence of the reaction rate when applying an electric field, with one-third the apparent activation energy at the lower reaction temperature range. Operando–IR measurements revealed that proton conduction via adsorbed water on the catalyst surface occurred during electric field application. Methane was activated by proton collision at the Pd–CeO2 interface, based on the inverse kinetic isotope effect. Proton conduction on the catalyst surface plays an important role in methane activation at low temperature. This report is the first describing promotion of the catalytic reaction by surface protonics.

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Acrylic acid synthesis from lactic acid over hydroxyapatite catalysts with various cations and anions

Matsuura

Onda

Ogo

et al. 2014

Catalysis Today

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Recent progress in ethanol steam reforming using non-noble transition metal catalysts: A review

Ogo

Sekine

2020

Fuel Processing Technology

175

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Shuhei Ogo

Selective synthesis of 1-butanol from ethanol over strontium phosphate hydroxyapatite catalysts

1-Butanol synthesis from ethanol over strontium phosphate hydroxyapatite catalysts with various Sr/P ratios

Surface Protonics Promotes Catalysis

Acrylic acid synthesis from lactic acid over hydroxyapatite catalysts with various cations and anions

Recent progress in ethanol steam reforming using non-noble transition metal catalysts: A review

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