Martin A. Hubbe

TL;DR: A review of recent work shows that considerable progress has been achieved in addressing these issues and that there is potential to use cellulosic nano-components in a wide range of high-tech applications as mentioned in this paper.

TL;DR: In this article, the authors consider both physical and chemical changes that take place as cellulosic fibers are manufactured into paper products one or more times, and propose that by understanding these changes one can make better use of cellulosa fibers at various stages of their life cycles, achieving a broad range of paper performance characteristics.

TL;DR: In this article, a review article was prompted by a remarkable growth in the number of scientific publications dealing with the use of nanocellulose (especially nanofibrillated cellulose, cellulose nanocrystals (CNC), and bacterial cellulose (BC)) to enhance the barrier properties and other performance attributes of new generations of packaging products.

TL;DR: A review of recent developments in nanocellulose-based materials and their applications in packaging with a special focus on oxygen and water vapor barrier characteristics is presented in this paper, where the authors report on recent developments and applications of nanocellular materials.

TL;DR: Adsorption kinetics of cellulosic materials is expected to mainly depend on diffusion-limited processes, as affected by heterogeneous distributions of pore sizes and continual partitioning of solute species between a dissolved state and a fixed state of adsorption.