Abstract

Hydrotalcites (HTs) of different, well-defined platelet sizes were hydrothermally synthesized. Activation via calcination and rehydration resulted in highly active catalysts. Their activities in the self-condensation of acetone at 273 K showed a linear increase with the amount of accessible Brønsted basic sites as determined by CO2 adsorption. The number of accessible sites, based on the CO2/Al ratio, was below 5%. Both results support our model in which only basic sites near edges of HT platelets are partaking in aldol condensations. Besides incorporation of interlayer OH− upon rehydration, the hexagonal morphology changed as a result of activation into a more irregular but still layered structure containing mesopores (<10 nm). In contrast to this, HTs with interlayer OH− prepared via ion exchange preserved their original hexagonal structure, but they lacked the high catalytic activity. The results show an enhanced activity of interlayer OH− close to disordered edges, obtained via rehydration, in contrast to interlayer OH− in a regular HT structure.

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