Abstract
Collagen materials are widely used in biomedicine and in cosmetics. However, their properties require improvement for several reasons. In this work, collagen solution as well as collagen films were modified by the addition of ferulic acid (FA). Thin collagen films containing FA were obtained by solvent evaporation. The properties of collagen solution have been studied by steady shear tests. The structure and surface properties of collagen thin films were studied. It was found that for collagen solution with 5% addition of FA, the apparent viscosity was the highest, whereas the collagen solutions with other additions of FA (1%, 2%, and 10%), no significant difference in the apparent viscosity was observed. Thin films prepared from collagen with 1 and 2% FA addition were homogeneous, whereas films with 5% and 10% FA showed irregularity in the surface properties. Mechanical properties, such as maximum tensile strength and elongation at break, were significantly higher for films with 10% FA than for films with smaller amount of FA. Young modulus was similar for films with 1% and 10% FA addition, but bigger than for 2% and 5% of FA in collagen films. The cross-linking of collagen with ferulic acid meant that prepared thin films were elastic with better mechanical properties than collagen films.
Highlights
IntroductionCollagen is widely used for the preparation of several materials for tissue engineering applications [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16]
Thin films prepared from collagen with 1 and 2% ferulic acid (FA) addition were homogeneous, whereas films with 5% and 10% FA showed irregularity in the surface properties
Higher ferulic acid content results in the decrease of amide I band as a result as a result of strong hydrogen bonds formed between collagen and ferulic acid (Figure 3)
Summary
Collagen is widely used for the preparation of several materials for tissue engineering applications [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16]. It can be used in several forms, i.e., in the form of a gel, thin films, and a 3D sponge [1,2]. It is commonly known that this process requires the chemical agent or the physical phenomenon that induces stable intra- or intermolecular chemical bonds formation
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