NMR Relaxometry Studies on the Drying Kinetics of Cellulose Nanofibers

Abstract: Nanocellulose is an emerging biopolymer with increasing interest from a variety of engineering fields. Given the complex textural properties and structural changes induced by drying, understanding the dehydration dynamics of nanocellulose is highly important. However, common bulk characterization techniques cannot be performed in real working conditions and usually require aggressive sample preparation. As an alternative, time-domain nuclear magnetic resonance (TD-NMR) can be applied with minimum interference.… Show more

“…Substantial work has been done comprising TD-NMR studies of porous media, including particle suspensions, − catalysis, − zeolites ,, construction products, , and bioengineering. − Additionally, in the petroleum field, NMR logging allows the evaluation of the porosity and permeability of reservoir rocks and shales upon calibration via laboratory measurements. − The impact of surface chemistry on solvent relaxation measurements has been acknowledged in several studies. For instance, Schlumberger et al showed that Stöber silicas may have a wetting preference for water compared to ethanol and tetrahydrofuran using T 1 and T 2 measurements .…”

Correlating Surface Chemistry to Surface Relaxivity via TD-NMR Studies of Polymer Particle Suspensions

“…Substantial work has been done comprising TD-NMR studies of porous media, including particle suspensions, − catalysis, − zeolites ,, construction products, , and bioengineering. − Additionally, in the petroleum field, NMR logging allows the evaluation of the porosity and permeability of reservoir rocks and shales upon calibration via laboratory measurements. − The impact of surface chemistry on solvent relaxation measurements has been acknowledged in several studies. For instance, Schlumberger et al showed that Stöber silicas may have a wetting preference for water compared to ethanol and tetrahydrofuran using T 1 and T 2 measurements .…”

Correlating Surface Chemistry to Surface Relaxivity via TD-NMR Studies of Polymer Particle Suspensions

Change in the dispersion states of short-length-cellulose nanofibers upon dilution investigated by a time-domain nuclear magnetic resonance (TD-NMR)

Valorization of Acai Bagasse into Cellulose Nanofibers/Sodium Alginate Aerogels