An Ultrastrong Nanofibrillar
Biomaterial:
The Strength of Single Cellulose Nanofibrils Revealed via Sonication-Induced
Fragmentation
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Abstract
We report the mechanical strength of native cellulose
nanofibrils.
Native cellulose nanofibrils, purified from wood and sea tunicate,
were fully dispersed in water via a topochemical modification of cellulose
nanofibrils using 2,2,6,6-tetramethylpiperidinyl-1-oxyl (TEMPO) as
a catalyst. The strength of individual nanofibrils was estimated based
on a model for the sonication-induced fragmentation of filamentous
nanostructures. The resulting strength parameters were then analyzed
based on fracture statistics. The mean strength of the wood cellulose
nanofibrils ranged from 1.6 to 3 GPa, depending on the method used
to measure the nanofibril width. The highly crystalline, thick tunicate
cellulose nanofibrils exhibited higher mean strength of 3–6
GPa. The strength values estimated for the cellulose nanofibrils in
the present study are comparable with those of commercially available
multiwalled carbon nanotubes