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1. Quantitative analysis of intermolecular forces in cellulose microfibrils and hemicellulose with AFM nano-colloidal probes.

Author

Kong Y, Lan X, Zhang W, Leu SY, Hu C, Wang Y, and Fu S

Subjects
Colloids chemistry, Nanofibers chemistry, Nanofibers ultrastructure, Microscopy, Atomic Force methods, Polysaccharides chemistry, Cellulose chemistry, Molecular Dynamics Simulation, Xylans chemistry, Microfibrils chemistry, Microfibrils ultrastructure
Abstract

It is an interesting research topic to study the interfacial interactions between hemicellulose and cellulose, specifically how hemicellulose's structure affects its binding to cellulose nanofibers. Our research proposes that dispersion interaction play an important role in this interfacial interaction, more so than electrostatic forces when considering the adherence of cellulose to xylan. To quantify these interactions, the Atomic Force Microscope (AFM) colloidal probe technique is applied to measure the intermolecular forces between cellulose nanofibers, which are attached to the probe and xylan. These measured forces are then analyzed in relation to the length, diameter and functional groups of the nanocellulose, as well as the molecular weight and side chains of the xylan. Moreover, the predominance of dispersion forces by contrasting the adhesive forces before and after the grafting of a large nonpolar group onto xylan. This modification significantly reduces contact between the cellulose and xylan backbone, thereby markedly diminishing the dispersion interactions. Parallel to the AFM experiments, molecular dynamics (MD) simulations corroborate the experimental results and support our hypotheses. Collectively, these findings contribute to a deeper understanding of polysaccharide interactions within lignocellulose., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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2. Microfibrillated cellulose - its barrier properties and applications in cellulosic materials: a review.

Author

Lavoine N, Desloges I, Dufresne A, and Bras J

Subjects
Animals, Cellulose chemical synthesis, Cellulose chemistry, Cellulose metabolism, Humans, Mechanical Phenomena, Microfibrils chemistry, Models, Biological, Nanocomposites chemistry, Nanoparticles chemistry, Permeability, Polymers chemical synthesis, Polymers chemistry, Polymers metabolism, Cellulose pharmacokinetics, Materials Testing, Microfibrils metabolism
Abstract

Interest in microfibrillated cellulose (MFC) has been increasing exponentially. During the last decade, this bio-based nanomaterial was essentially used in nanocomposites for its reinforcement property. Its nano-scale dimensions and its ability to form a strong entangled nanoporous network, however, have encouraged the emergence of new high-value applications. In previous years, its mode of production has completely changed, as many forms of optimization have been developed. New sources, new mechanical processes, and new pre- and post-treatments are currently under development to reduce the high energy consumption and produce new types of MFC materials on an industrial scale. The nanoscale characterization possibilities of different MFC materials are thus increasing intensively. Therefore, it is critical to review such MFC materials and their properties. Moreover, very recent studies have proved the significant barrier properties of MFC. Hence, it is proposed to focus on the barrier properties of MFC used in films, in nanocomposites, or in paper coating., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2012
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