Direct Interaction Force and Adsorption Behavior of Fibrinogen on Well-Characterized Polymer Brush Surfaces
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Adsorption behavior of fibrinogen was examined in terms of the direct interaction force operating between fibrinogen and surfaces. As model surfaces, well-characterized polymer brush surfaces were systematically prepared by surface-initiated atom transfer radical polymerization method using zwitterionic, cationic, anionic, and hydrophobic monomers. The direct interaction forces between fibrinogen and the polymer brush surfaces were quantitatively evaluated by the force-versus-distance curve measurement of atomic force microscopy using fibrinogen-immobilized probe. Besides, the amount of fibrinogen adsorbed on these polymer brush surfaces was quantified by surface plasmon resonance measurement. The cationic, anionic, and hydrophobic polymer brush surfaces strongly interacted with fibrinogen, and a large amount of fibrinogen adsorbed on them. On the other hand, in the case of the zwitterionic polymer brush surface, direct interaction force with fibrinogen was weak, and fibrinogen adsorption was dramatically suppressed. It was quantitatively indicated that the strength of direct interaction force operating between fibrinogen and surfaces would influence on fibrinogen adsorption on surfaces.
- Transactions of the Materials Research Society of Japan
Transactions of the Materials Research Society of Japan 41(1), 51-54, 2016
The Materials Research Society of Japan