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Mesoporous magnesium oxide has been prepared through a hard-templating pathway using mesoporous carbon aerogel as template and magnesium nitrate solution as MgO precursor. The used carbon aerogel can be synthesized by drying a resorcinol/formaldehyde polymer under ambient pressure conditions instead of the usually employed supercritical drying method. After removal of the carbon template by a simple combustion at 600 °C for 8 h in air, the obtained MgO primary particles have close to spherical shapes, which are connected to form a three-dimensional network structure. The surface area and pore volume can reach up to 150 m 2 ·g - 1 and 0.73 cm 3 ·g - 1, respectively. A carbon aerogel template with larger pore diameter also leads to MgO with an increasing pore diameter. Such a tunable mesopore structure of MgO with high surface area, large pore volume, and tunable pore size could be advantageous for practical applications, for instance in catalysis.
Li et al. (Thu,) studied this question.