Choong, Cleo; Foord, J. S.; Griffiths, Jon-Paul; Parker, Emily M.; Baiwen, Luo; Bora, Meghali; Moloney, Mark G. published the artcile< Post-polymerisation modification of surface chemical functionality and its effect on protein binding>, Application of C19H34O2, the main research area is post polymerization surface modification protein binding biomaterial.
Derivatization of polystyrene by carbene insertions followed by diazonium coupling permits the introduction of diverse chem. functionality, providing access to materials with similar bulk properties, but in which surface chem. characteristics are systematically varied across a range of surface polarity, hydration and non-bonding interaction behavior. Protein binding experiments with bovine serum albumin demonstrate that protein adhesion is dependent upon the identity of the surface chem. group, with tert-Bu, hexyl, dimethylamino, amino, and carboxyl modified systems all exhibiting higher levels of binding, while glycol, hydroxyl, and phosphonate give similar or lower levels of binding, relative to the control. This behavior is time dependent, and an approx. trend of protein binding with cheminformatic descriptors %PSA and contact angle was observed
New Journal of Chemistry published new progress about Biocompatible materials (polystyrene-based). 112-63-0 belongs to class esters-buliding-blocks, and the molecular formula is C19H34O2, Application of C19H34O2.
Referemce:
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics