MgO-modified mesoporous silicas impregnated by potassium carbonate for carbon dioxide adsorption

Mesoporous adsorbents for carbon dioxide capture were prepared by introducing of magnesium oxide and potassium carbonate into SBA-15, SBA-16 silicas and MCM-48-like-silica. In order to avoid destruction of silica supports, a novel procedure based on the precipitation of magnesium acetate on the silica surface was developed. Subsequent in situ chemical conversion of magnesium acetate provided magnesium oxalate, while final magnesium oxide was formed by calcination. To introduce potassium carbonate, silica modified with MgO was impregnated with potassium oxalate followed by its conversion to carbonate. All prepared mesoporous adsorbents preserved characteristic features of mesoporous molecular sieve.The comparison of carbon dioxide isotherms obtained on prepared samples reveals that their adsorption properties are decisively influenced by the type of mesoporous structure. Modified sample of SBA-15 silica has shown the most steep adsorption isotherm and higher CO2 adsorption capacity than adsorption capacity of samples prepared from SBA-16 and MCM-48-ls silicas.

Figure optionsDownload as PowerPoint slideHighlights
► A novel method introducing MgO and K2CO3 into SBA-15 without structural collapse.
► The method is based on the in situ conversion of magnesium acetate oxalate and oxide.
► SBA-15 modified by MgO is impregnated with K-oxalate and converted to carbonate.
► CO2 adsorption capacity is in order SBA-15 > SBA-16 ± MCM-48.