Lipid adsorption on commercial silica hydrogels from hexane and changes in triglyceride complexes with time

by Proctor, A.; Adhikari, C.; Blyholder, G. D.

The structures of and lipid complexes with two commercial silica hydrogels (Trisyl and Sorbsil 40), which contain about 60% moisture, were examined by diffuse reflectance Fourier transform infrared spectroscopy. The spectra suggested that Trisyl contained less moisture than Sorbsil 40. However, the silanol groups of Sorbsil 40 were more active in adsorbing oleic acid, triglyceride, and phosphatidylcholine (PC) from hexane than those of Trisyl. Both adsorbents strongly bound PC through the PC carbonyl and phosphate groups. Lipid adsorption from hexane solution by Trisyl depended solely on trapped moisture, while Sorbsil 40 used moisture and silanol groups on the silica surface. Spectra of triglyceride-silica hydrogel complexes, obtained 24 and 72 h after obtaining the initial spectra, showed that Sorbsil 40 adsorption was by Van der Waals forces, but the triglyceride reoriented over time with an increase in hydrogen bonding. In contrast, Trisyl initially adsorbed triglyceride by hydrogen bonding which was stable for at least 72 h.

Journal
Journal of the American Oil Chemists Society
Volume
73
Issue
6
Year
1996
Start Page
693-698
URL
https://dx.doi.org/10.1007/bf02517942
ISBN/ISSN
1558-9331; 0003-021X
DOI
10.1007/bf02517942