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Ni-Al hydrotalcite derived catalyst(Ni-Al2O3-HT) exhibited a narrow Ni particle-size distribution with an average particle size of 4.0 nm.Methanation of CO2 over this catalyst initiated at 225℃ and reached 82.5% CO2 conversion with 99.5% CH4 selectivity at 350℃, which was much better than its impregnated counterpart. Characterizations by means of CO2 microcalorimetry and 27Al NMR indicated that large amount of strong basic sites existed on Ni-Al2O3-HT, originated from the formation of Ni-O-Al structure. The existence of strong basic sites facilitated the activation of CO2 and consequently promoted the activity. The combination of highly dispersed Ni with strong basic support led to its unique and high efficiency for this reaction.
Ni-Al hydrotalcite derived catalyst (Ni-Al2O3-HT) exhibited a narrow Ni particle-size distribution with an average particle size of 4.0 nm. Methanation of CO2 over this catalyst initiated at 225 ° C and reached 82.5% CO2 conversion with 99.5% CH4 Characterizations by means of CO2 microcalorimetry and 27Al NMR showed that large amount of strong basic sites on Ni-Al2O3-HT, originated from the formation of Ni-O-Al structure The existence of strong basic sites facilitated the activation of CO2 and resulted promoted the activity. The combination of highly dispersed Ni with strong basic support led to its unique and high efficiency for this reaction.