Abstract
AbstractA phosphorous‐modified Al2O3 support was prepared by the impregnation method and applied for the preparation of cobalt‐based Fischer–Tropsch synthesis (FTS) catalysts (Co/P–Al2O3), which were calcined at different temperatures. The Co/P–Al2O3 showed a significant increase of thermal stability with a higher catalytic performance without severe deactivation even above a calcination temperature of 600 °C compared with the unmodified Co/Al2O3. These findings are explained by the suppressed cobalt aluminate formation and less pronounced aggregation of cobalt particles. The suppressed aggregation of cobalt particles is attributed to the localized presence of aluminum phosphate by forming a thermally stable metal–phosphorous oxo‐species on Al2O3 surfaces thus suppressing the migration of cobalt particles to the outer pore mouths of the support. These effects significantly enhance the catalytic activity with a higher thermal stability of the catalysts.
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