Morphology and gas barrier properties of thin SiOx coatings on polycarbonate: Correlations with plasma-enhanced chemical vapor deposition conditions

Ahmet G. Erlat; Bo Chy Wang; Richard J. Spontak; Yelena Tropsha; Kevin D. Mar; David B. Montgomery; Erwin A. Vogler

doi:10.1557/JMR.2000.0103

Morphology and gas barrier properties of thin SiO_x coatings on polycarbonate: Correlations with plasma-enhanced chemical vapor deposition conditions

Ahmet G. Erlat, Bo Chy Wang, Richard J. Spontak, Yelena Tropsha, Kevin D. Mar, David B. Montgomery, Erwin A. Vogler

Research output: Contribution to journal › Article › peer-review

62 Scopus citations

Abstract

Plasma-enhanced chemical vapor deposition of SiO_x coatings on thermoplastics provides a viable route for production of transparent composite materials with high fracture toughness and high gas barrier properties, which are important considerations in the food packaging and biomedical device industries. By examining several series of systematically varied SiO_x/polycarbonate composites, we have identified design correlations between coating characteristics (thickness, density, surface roughness, and O₂ transmission) and deposition conditions (time, power, pressure, and flow rates) of particular interest is the observation that the thermal activation energy for O₂ permeation through these composites increases (by up to 17 kJ/mol) as their barrier efficacy increases.

Original language	English (US)
Pages (from-to)	704-717
Number of pages	14
Journal	Journal of Materials Research
Volume	15
Issue number	3
DOIs	https://doi.org/10.1557/JMR.2000.0103
State	Published - Mar 2000

All Science Journal Classification (ASJC) codes

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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title = "Morphology and gas barrier properties of thin SiOx coatings on polycarbonate: Correlations with plasma-enhanced chemical vapor deposition conditions",

abstract = "Plasma-enhanced chemical vapor deposition of SiOx coatings on thermoplastics provides a viable route for production of transparent composite materials with high fracture toughness and high gas barrier properties, which are important considerations in the food packaging and biomedical device industries. By examining several series of systematically varied SiOx/polycarbonate composites, we have identified design correlations between coating characteristics (thickness, density, surface roughness, and O2 transmission) and deposition conditions (time, power, pressure, and flow rates) of particular interest is the observation that the thermal activation energy for O2 permeation through these composites increases (by up to 17 kJ/mol) as their barrier efficacy increases.",

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T1 - Morphology and gas barrier properties of thin SiOx coatings on polycarbonate

T2 - Correlations with plasma-enhanced chemical vapor deposition conditions

AU - Erlat, Ahmet G.

AU - Wang, Bo Chy

AU - Spontak, Richard J.

AU - Tropsha, Yelena

AU - Mar, Kevin D.

AU - Montgomery, David B.

AU - Vogler, Erwin A.

PY - 2000/3

Y1 - 2000/3

N2 - Plasma-enhanced chemical vapor deposition of SiOx coatings on thermoplastics provides a viable route for production of transparent composite materials with high fracture toughness and high gas barrier properties, which are important considerations in the food packaging and biomedical device industries. By examining several series of systematically varied SiOx/polycarbonate composites, we have identified design correlations between coating characteristics (thickness, density, surface roughness, and O2 transmission) and deposition conditions (time, power, pressure, and flow rates) of particular interest is the observation that the thermal activation energy for O2 permeation through these composites increases (by up to 17 kJ/mol) as their barrier efficacy increases.

AB - Plasma-enhanced chemical vapor deposition of SiOx coatings on thermoplastics provides a viable route for production of transparent composite materials with high fracture toughness and high gas barrier properties, which are important considerations in the food packaging and biomedical device industries. By examining several series of systematically varied SiOx/polycarbonate composites, we have identified design correlations between coating characteristics (thickness, density, surface roughness, and O2 transmission) and deposition conditions (time, power, pressure, and flow rates) of particular interest is the observation that the thermal activation energy for O2 permeation through these composites increases (by up to 17 kJ/mol) as their barrier efficacy increases.

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Morphology and gas barrier properties of thin SiO_x coatings on polycarbonate: Correlations with plasma-enhanced chemical vapor deposition conditions

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