Cellulose
nanofibrils, which attract extensive attention as a bio-based,
sustainable, high-performance nanofibril, are believed to be predominantly
hydrophilic. This study aimed to prove the presence of an amphiphilic
“Janus-type fiber surface” in water with hydrophobic
and hydrophilic faces in a cellulose nanofibril (ACC-CNF) that was
prepared by the aqueous counter collision method. We clarified the
surface characteristics of the ACC-CNF by confocal laser scanning
microscopy with a carbohydrate-binding module and congo red probes
for the hydrophobic planes on the cellulose fiber surfaces and calcofluor
white as hydrophilic plane probes. The results indicated the presence
of both characteristic planes on a single ACC-CNF surface, which verifies
an amphiphilic Janus-type structure. Both hydrophobic probes adsorbed
onto ACC-CNFs for the quantitative evaluation of the degree of ACC-CNF
surface hydrophobicity by Langmuir’s adsorption theory based
on the optimal maximum adsorption amounts for various starting raw
material types.
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