Topochemical Engineering of Cellulose—Carboxymethyl Cellulose Beads: A Low-Field NMR Relaxometry Study

Abstract: The demand for more ecological, highly engineered hydrogel beads is driven by a multitude of applications such as enzyme immobilization, tissue engineering and superabsorbent materials. Despite great interest in hydrogel fabrication and utilization, the interaction of hydrogels with water is not fully understood. In this work, NMR relaxometry experiments were performed to study bead–water interactions, by probing the changes in bead morphology and surface energy resulting from the incorporation of carboxymethy… Show more

“…Dissolving pulp from birch wood, obtained from Stora Enso (Helsinki, Finland), was used as a cellulose source, and pretreated as described earlier ( De Wever et al, 2021 ). Sodium hydroxide (97%), urea (≥99.5%), nitric acid (69%), sodium meta-periodate (≥99.0%), and Polysorbate 80 were purchased from Millipore Sigma™ (Darmstadt, Germany).…”

Novel cationic cellulose beads for oral delivery of poorly water-soluble drugs

“…Dissolving pulp from birch wood, obtained from Stora Enso (Helsinki, Finland), was used as a cellulose source, and pretreated as described earlier ( De Wever et al, 2021 ). Sodium hydroxide (97%), urea (≥99.5%), nitric acid (69%), sodium meta-periodate (≥99.0%), and Polysorbate 80 were purchased from Millipore Sigma™ (Darmstadt, Germany).…”

Novel cationic cellulose beads for oral delivery of poorly water-soluble drugs

“…Achieving the right mix of cellulose derivatives, crosslinking agents, and additives is essential for improving their water absorbency, mechanical strength, and ability to respond to environmental changes. This is particularly important for their use in diverse fields such as agriculture and biomedicine [ 71 , 72 , 73 , 74 ]. Moving from laboratory-scale experiments to industrial-scale production introduces significant economic and technical challenges.…”

Advancements in Cellulose-Based Superabsorbent Hydrogels: Sustainable Solutions across Industries

“…The area of a particular peak relates to the amount of protons in the specific population, while the mean T2 relaxation time relates to the proton mobility within that population. This proton mobility is associated with the cellulose-water interaction and the distance of the water to the cellulosic surface (De Wever et al, 2021). The biggest proton population in an MC-water mixture, representing water protons in interaction with the cellulose, had a mobility of 65.4 ± 2.7 ms, which was significantly higher (p <0.05) than the biggest proton populations in mixtures with the modified cellulose samples (21.8 ± 0.5 ms for AC and below 15.0 ms for DC and ADC).…”

Amorphisation and chain length reduction of cellulose affect its impact on the water distribution, dough rheology and loaf volume in bread making