Barrier properties of Al2O3 and alucone coatings and nanolaminates on flexible biopolymer films
Barrier
thin film
02 engineering and technology
GAS-DIFFUSION BARRIERS
POLYMER-COATED PAPERBOARD
THIN-FILMS
laminate
Thin film
ta216
Laminate
ta116
TEMPERATURE
hybrid
straining
TRIMETHYLALUMINUM
PERFORMANCE
Hybrid
Alucone
Straining
barrier
GROWTH
PACKAGING MATERIALS
ATOMIC LAYER DEPOSITION
0210 nano-technology
DOI:
10.1016/j.tsf.2012.07.025
Publication Date:
2012-07-16T00:03:50Z
AUTHORS (8)
ABSTRACT
Thin atomic layer deposited (ALD) Al2O3 coatings are efficient barriers against gases and vapors. Al2O3 coatings are, however, brittle and straining them generates defects that impair barrier properties. Flexibility of ALD-grown Al2O3 coatings on biopolymer substrates can be improved by separating thinner Al2O3 layers with inorganic-organic alucone layers. The number and size of defects were smaller for these nanolaminates compared to the thick Al2O3 films after straining, and hence straining deteriorated the oxygen barrier properties less when applied to the laminates than when applied to the Al2O3 coatings.
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CITATIONS (73)
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