Vm. De Cupere et Pg. Rouxhet, Collagen films adsorbed on native and oxidized poly(ethylene terephtalate): morphology after drying, SURF SCI, 491(3), 2001, pp. 395-404
The collagen layer formed by adsorption of collagen on native (PETn) and su
rface oxidized poly(ethylene terephtalate) (PETox) was studied by X-ray pho
toelectron spectroscopy and atomic force microscopy (AFM). On PETox, for ad
sorption times up to a few hours. the collagen molecules form a network, th
e nodes of which seem to be responsible for a dot-like morphology, On PETn,
at very short adsorption times and consequently low surface coverages, the
adsorbed molecules are displaced by the AFM tip. This effect reveals lower
interactions between the collagen and the surface after drying compared to
PETox. At higher coverages, the surface morphology is similar to that obta
ined for PETox. After an adsorption time of 24 h, an aggregation of collage
n molecules is observed for both substrates. The results are discussed with
regard to the interactions between collagen and the substrate in water, th
e events occurring during the drying process and the mobility of collagen m
olecules in the dry state, (C) 2001 Elsevier Science B.V. All rights reserv
ed.