Achieving a Superhydrophobic, Moisture, Oil and Gas Barrier Film Using a Regenerated Cellulose–Calcium Carbonate Composite Derived from Paper Components or Waste

Abstract: It has been a persistent challenge to develop eco-friendly packaging cellulose film providing the required multiple barrier properties whilst simultaneously contributing to a circular economy. Typically, a cellulosic film made from nanocellulose materials presents severe limitations, such as poor water/moisture resistance and lacking water vapour barrier properties, related primarily to the hydrophilic and hygroscopic nature of cellulose. In this work, alkyl ketene dimer (AKD) and starch, both eco-friendly, no… Show more

“…The crystalline nature of CNCs is responsible for a specific strength, biodegradability, useful rheological behavior, modulus, high surface area, maximum chances of chemical modification, biocompatibility, lightweight, high aspect ratio, outstanding oxygen permeation resistance, oil grease barrier, water vapor transmission rate resistance, aqueous liquid barrier, and unique liquid crystalline properties. (Islam et al 2013;George and Sabapathi 2015;Imani et al 2022). Many researchers have produced CNCs from various cellulosic sources e.g.…”

Production of nanocellulose from lignocellulosic biomass and its potential applications: A review

“…The crystalline nature of CNCs is responsible for a specific strength, biodegradability, useful rheological behavior, modulus, high surface area, maximum chances of chemical modification, biocompatibility, lightweight, high aspect ratio, outstanding oxygen permeation resistance, oil grease barrier, water vapor transmission rate resistance, aqueous liquid barrier, and unique liquid crystalline properties. (Islam et al 2013;George and Sabapathi 2015;Imani et al 2022). Many researchers have produced CNCs from various cellulosic sources e.g.…”

Production of nanocellulose from lignocellulosic biomass and its potential applications: A review

Permeation properties of a plasma-processed organosilicon–carboxymethylcellulose bilayer on fibrillated cellulosic films for sustainable packaging applications

Investigating waste mineral-filled cellulose sourcing in circular economy for regeneration into composite: Matching existing market volumes of oil-based plastics for packaging