Abstract
Manganese cobalt oxides with different Co/Mn ratios have been prepared by co-precipitation methods, and their catalytic performance on methane combustion were evaluated from 250°C to 400°C at a space velocity of 36,000h−1. A significant improvement of activity was observed over Co5Mn1 catalysts with a Co/Mn molar ratio of 5:1, and the catalytic activity reached 90% of methane conversion at 320°C. Oxygen mobility – reflected by the appearance of O2− – was probably a key factor that influenced the oxidation rate of methane below 320°C. The doping of manganese into the spinel structure of cobalt oxide increased crystal defections, which probably caused the increase of the amount of octahedrally coordinated divalent cobalt cations that are responsible for catalytic activity. The hydroxyl groups observed on the manganese-doped catalysts would also explain the promotional effects.
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