This research employed 29 Si and 13 C Cross-Polarisation/Magic Angle Spinning (CP/MAS) NMR spectroscopy to characterise the nature and amount of surface species of di-and trifunctional mercaptopropylsilane (MPS) bonded silica using supercritical carbon dioxide (sc-CO 2 ) as a reaction solvent without additives (co-solvent) or catalysts. The MPS stationary phases were prepared within 1h at a temperature and pressure of 70°C and 414bar, respectively. Complementary analysis including elemental analysis, thermogravimetric analysis (TGA), DRIFT spectroscopy and BET surface area measurements were employed to characterise the bonded MPS intermediate stationary phases in support of data obtained from solid-state NMR analysis. The results revealed that modification of silica with a trimethoxymercaptopropylsilane (MPTMS) results in ligand surface coverage that is larger than when dimethoxymethylmercaptopropysilane (MPDMMS) is employed as a silanisation reagent. This observation is attributed to greater reactivity and cross-linkage of trifunctional silane. Reaction in sc-CO 2 in comparison to reflux in organic solvents, is rapid, reducing product recovery procedures.