2020
DOI: 10.3390/suschem1030014
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Enhancing the Oxygen Barrier Properties of Nanocellulose at High Humidity: Numerical and Experimental Assessment

Abstract: Films formed from cellulose nanofibrils (CNFs) are known to be good barrier materials against oxygen, but they lose this feature once placed in humid conditions. To tackle this issue, we applied an optimized pressing condition under elevated temperature to increase the films’ density and improve their barrier performance. Furthermore, a water barrier coating was employed on the surfaces to control the moisture uptake at high relative humidity (RH). Neat self-standing films of CNF with the basis weight of 70 g/… Show more

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Cited by 24 publications
(14 citation statements)
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“…Moreover, PAE-treated films showed 27% lower EMC than the alum-treated samples, resulting in a more moisture sorption in the latter one. The higher moisture sorption can cause swelling of the fibrils disrupting the chain linkage and working as a medium for oxygen dissolution, facilitating the oxygen transfer. , Aside from the crosslinker type, the concentration of the alum/PAE bath significantly controlled the OP values. The concentration of the alum/PAE bath did not exhibit a linear relationship with the OP values.…”
Section: Resultsmentioning
confidence: 99%
“…Moreover, PAE-treated films showed 27% lower EMC than the alum-treated samples, resulting in a more moisture sorption in the latter one. The higher moisture sorption can cause swelling of the fibrils disrupting the chain linkage and working as a medium for oxygen dissolution, facilitating the oxygen transfer. , Aside from the crosslinker type, the concentration of the alum/PAE bath significantly controlled the OP values. The concentration of the alum/PAE bath did not exhibit a linear relationship with the OP values.…”
Section: Resultsmentioning
confidence: 99%
“…54,55 The oxygen permeability is not only determined by the nature of the coating materials, but also depends on the relative humidity (RH). 56 As a representative, the OTR dependence of the GB40 film on RH was investigated and is presented in Fig. S5 and Table S3.…”
Section: Resultsmentioning
confidence: 99%
“…Table 3 shows that the plateau oxygen permeability of 1.24 cc µm/m 2 day kPa is one to three orders of magnitude lower than the common petroleum-derived polymers, except for EVOH. However, the oxygen barrier properties of nanopaper samples are often compromised under high humidity conditions which may explain the observed order of magnitude difference in the oxygen permeability results (Tayeb et al 2020 ). This contrasts with the water vapour permeability data in Table 4 where the plateau water vapour permeability of 3 × 10 –11 g/m.s Pa is two to three orders of magnitude higher.…”
Section: Discussionmentioning
confidence: 99%