Litcius/Paper detail

Multilayer Chitin–Chitosan–Cellulose Barrier Coatings on Poly(ethylene terephthalate)

Zeyang Yu, Yue Ji, J. Carson Meredith

2022ACS Applied Polymer Materials19 citationsDOIOpen Access PDF

Abstract

Currently, effective barrier properties over a wide range of humidity are achieved by layering multiple plastics, resulting in structures that are nearly impossible to recycle through current systems. There is strong interest in developing barriers that are recyclable, biodegradable, or compostable. Chitin and cellulose nanomaterials are promising alternatives because of their high crystallinity, renewable sourcing, strong electrostatic interactions, and potential for biodegradation or composting. In this paper, we explore the potential to create multilayer materials with effective oxygen and water vapor barrier properties at elevated humidity by combining recyclable poly(ethylene terephthalate) (PET) films with single-layer and bilayer coatings of chitin nanowhiskers (ChNWs), chitosan (CS), and cellulose nanocrystals (CNCs). The addition of CS to the ChNW suspension improved the gas barrier properties of ChNW coatings, likely by filling voids, and short ChNWs (SChNW, 114 nm) performed better than long ChNWs (LChNW, 230 nm). At the optimal mass ratio of 1:1 SChNW/CS, the oxygen permeability (OP) of SChNW/CS-coated PET films was 5.1 cm3 μm m–2 day–1 kPa–1 versus 15.9 cm3 μm m–2 day–1 kPa–1 for neat PET. To take advantage of electrostatic attraction and hydrogen bonding, CNC was first coated on the PET, followed by coating with ChNW/CS, resulting in an OP as low as 3.6 cm3 μm m–2 day–1 kPa–1 at 50% relative humidity (RH), and 6.4 cm3 μm m–2 day–1 kPa–1 at 80% RH. Moreover, after thermal treatment (120 °C, 2.5 h), the OP dropped to 2.2 cm3 μm m–2 day–1 kPa–1 (50% RH) and 4.8 cm3 μm m–2 day–1 kPa–1 (80% RH). The ChNW/CS and CNC coating can be efficiently removed with alkali treatment enabling possible recycling of the coated PET films.

Topics & Concepts

Materials scienceChemical engineeringChitosanCelluloseCrystallinityRelative humidityChitinCoatingWater vaporEthyleneOxygen permeabilityNanocelluloseHumidityComposite materialOxygenChemistryOrganic chemistryEngineeringCatalysisPhysicsThermodynamicsNanocomposite Films for Food PackagingAdvanced Cellulose Research StudiesAdvanced Sensor and Energy Harvesting Materials