methods, acetylation is a kind of c

methods, acetylation is a kind of commonly used chemical mod-ification, where the hydroxyl groups of cellulose are replaced byless hydrophilic acetyl groups (Nogi et al., 2006). The principleof the method is to react the hydroxyl groups ( OH) of the fiberconstituents with acetyl groups (CH3CO ) (Pandey, Nakagaito, &Takagi, 2013). The reaction is known to proceed full esterifica-tion of all the three hydroxyls of anhydro-d-glucose when it iscarried out in a homogeneous phase (i.e. when cellulose is dis-solved), but in the case of fibers and wood, where the reaction isheterogeneous, that is very rarely the case (Hu et al., 2009). Thehydroxyl groups that react are those of the minor constituents ofthe fiber, i.e. lignin and hemicelluloses, and those of amorphous cel-lulose. This is because of the hydroxyl groups in crystalline regionswith close packing and strong interchain bonding (Baiardo, Frisoni,Scandola, & Licciardello, 2002). After resolving the incompatibil-ity issues between CNF and polymer to a satisfactory extent byadequate modification either in host or filler, it was assumed thatdispersion of fiber may be enhanced with reduction in the sizethrough introducing nano fillers for positive tailoring of differentmaterial properties (Nitz, Semke, Landers, & Mülhaupt, 2001).For the reinforcement to be effective, interaction between CNFsand matrices should be optimized. Understanding the surface prop-erties of CNFs, therefore, is a necessary step in optimizing adhesion.The main objective of this work was to study the effect of chem-ical modification of CNFs using acetylation on the hydrophobicityand dispersibility. Furthermore, the properties of acetylated andnon-acetylated CNFs in terms of thermal stability, surface morphol-ogy, and contact angle, chemical and structural characteristics wereinvestigated.