Kaolinite hydroxyl surfaces have been modified upon intercalation with potassium acetate under a range of conditions. Modification is observed by changes in the hydroxyl stretching region using Raman and infrared spectroscopy. Upon the intercalation of low defect kaolinite with potassium acetate under a pressure of 20 bars and 220°C, the Raman spectra showed additional bands at 3590, 3603, and 3609 cm. The DRIFT spectra of this intercalate showed new bands at 3595 and 3605 cm. These bands are attributed to the inner surface hydroxyls hydrogen bonded to the acetate anion. Intercalation under 20 bars pressure at 220°C caused the differentiation of the inner surface hydroxyl groups, resulting in these additional bands. By using milder conditio...
Water in intercalated kaolinites is observed first as bands in the hydroxyl-stretching region at 330...
Kaolinite hydroxyls in dimethylsulphoxide-intercalated (DMSO-intercalated) kaolinites have been dete...
Controlled rate thermal analysis (CRTA) technology made possible the separation of adsorbed formamid...
Kaolinite hydroxyl surfaces have been modified upon intercalation with cesium acetate under a range ...
The modification of kaolinite hydroxyl surfaces of both ordered and disordered kaolinires has been s...
Changes in the hydroxyl surfaces of cesium acetate intercalated kaolinite have been studied over the...
Changes in the molecular structure of a highly ordered kaolinite, intercalated with urea and potassi...
Raman microscopy has been used to study low and high defect kaolinites and their potassium acetate i...
urea and potassium acetate, have been studied using Raman microscopy. A new Raman band, attributed t...
Changes in the hydroxyl surfaces of kaolinite have been studied through mechanochemical activation f...
Kaolinite hydroxyl surfaces have been modified by the combined application of heat and pressure in t...
The surfaces of kaolinite have been modified through intercalation with deuterated dimethylsulfoxide...
The surfaces of kaolinite have been modified through intercalation with deuterated dimethylsulfoxide...
The rehydration of potassium acetate-intercalated kaolinite has been followed using a combination of...
Upon intercalation of both ordered (low defect) and disordered (high defect) kaolinites with acetami...
Water in intercalated kaolinites is observed first as bands in the hydroxyl-stretching region at 330...
Kaolinite hydroxyls in dimethylsulphoxide-intercalated (DMSO-intercalated) kaolinites have been dete...
Controlled rate thermal analysis (CRTA) technology made possible the separation of adsorbed formamid...
Kaolinite hydroxyl surfaces have been modified upon intercalation with cesium acetate under a range ...
The modification of kaolinite hydroxyl surfaces of both ordered and disordered kaolinires has been s...
Changes in the hydroxyl surfaces of cesium acetate intercalated kaolinite have been studied over the...
Changes in the molecular structure of a highly ordered kaolinite, intercalated with urea and potassi...
Raman microscopy has been used to study low and high defect kaolinites and their potassium acetate i...
urea and potassium acetate, have been studied using Raman microscopy. A new Raman band, attributed t...
Changes in the hydroxyl surfaces of kaolinite have been studied through mechanochemical activation f...
Kaolinite hydroxyl surfaces have been modified by the combined application of heat and pressure in t...
The surfaces of kaolinite have been modified through intercalation with deuterated dimethylsulfoxide...
The surfaces of kaolinite have been modified through intercalation with deuterated dimethylsulfoxide...
The rehydration of potassium acetate-intercalated kaolinite has been followed using a combination of...
Upon intercalation of both ordered (low defect) and disordered (high defect) kaolinites with acetami...
Water in intercalated kaolinites is observed first as bands in the hydroxyl-stretching region at 330...
Kaolinite hydroxyls in dimethylsulphoxide-intercalated (DMSO-intercalated) kaolinites have been dete...
Controlled rate thermal analysis (CRTA) technology made possible the separation of adsorbed formamid...