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Hydrophobic, Sustainable, High-Barrier Regenerated Cellulose Film via a Simple One-Step Silylation Reaction

Goomin Kwon, Jisoo Park, Kangyun Lee, Youngsang Ko, Youngho Jeon, Suji Lee, Jeonghun Kim, Jungmok You

2023Polymers18 citationsDOIOpen Access PDF

Abstract

With the increasing importance of environmental protection, high-performance biopolymer films have received considerable attention as effective alternatives to petroleum-based polymer films. In this study, we developed hydrophobic regenerated cellulose (RC) films with good barrier properties through a simple gas–solid reaction via the chemical vapor deposition of alkyltrichlorosilane. RC films were employed to construct a biodegradable, free-standing substrate matrix, and methyltrichlorosilane (MTS) was used as a hydrophobic coating material to control the wettability and improve the barrier properties of the final films. MTS readily coupled with hydroxyl groups on the RC surface through a condensation reaction. We demonstrated that the MTS-modified RC (MTS/RC) films were optically transparent, mechanically strong, and hydrophobic. In particular, the obtained MTS/RC films exhibited a low oxygen transmission rate of 3 cm3/m2 per day and a low water vapor transmission rate of 41 g/m2 per day, which are superior to those of other hydrophobic biopolymer films.

Topics & Concepts

BiopolymerMaterials scienceContact angleChemical engineeringWettingCelluloseRegenerated celluloseSuperhydrophobic coatingCoatingPolymerSilylationSubstrate (aquarium)Polymer chemistryOrganic chemistryComposite materialChemistryOceanographyEngineeringCatalysisGeologyAdvanced Cellulose Research StudiesElectrospun Nanofibers in Biomedical ApplicationsSurface Modification and Superhydrophobicity
Hydrophobic, Sustainable, High-Barrier Regenerated Cellulose Film via a Simple One-Step Silylation Reaction | Litcius