SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2023240715> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2023240715 endingPage "4691" @default.
W2023240715 startingPage "4685" @default.
W2023240715 abstract "An organosilicon/silicon oxide (SiOx) multilayered barrier structure was consecutively deposited onto the polyethylene terephthalate (PET) substrate by plasma-enhanced chemical vapor deposition (PECVD) using tetramethylsilane (TMS) monomer and TMS–oxygen gas mixture, respectively. The thickness of the SiOx film directly deposited onto the PET substrate was firstly designed to perform the best barrier property to water vapor permeation, which also possessed the optimal surface uniformity and SiOSi structural order. By insetting an adequate thickness of the organosilicon layer plasma-polymerized from TMS monomer between the SiOx film and PET substrate, the water vapor transmission rate (WVTR) was further improved. The residual internal stress of such organosilicon/SiOx barrier structure was significantly lower than that of a single SiOx film deposited directly on the substrate. The improvement on the structural quality and surface densification of the organosilicon/SiOx barrier structures was discussed and observed from their chemical bond configurations and surface morphologies. Accordingly, low water vapor permeation below the MOCON detection limit (< 1 × 10− 2 g/m2/day) was achievable from the PET substrate coated with the 6-pairs of the organosilicon/SiOx multilayered barrier structure by PECVD using the same monomer precursor." @default.
W2023240715 created "2016-06-24" @default.
W2023240715 creator A5019092556 @default.
W2023240715 creator A5035530466 @default.
W2023240715 creator A5077608860 @default.
W2023240715 creator A5089388615 @default.
W2023240715 creator A5090742538 @default.
W2023240715 date "2012-06-01" @default.
W2023240715 modified "2023-10-14" @default.
W2023240715 title "Organosilicon/silicon oxide gas barrier structure encapsulated flexible plastic substrate by using plasma-enhanced chemical vapor deposition" @default.
W2023240715 cites W1965744548 @default.
W2023240715 cites W1971577923 @default.
W2023240715 cites W1976054127 @default.
W2023240715 cites W1982832676 @default.
W2023240715 cites W1983488021 @default.
W2023240715 cites W1993884523 @default.
W2023240715 cites W1996135228 @default.
W2023240715 cites W1998984427 @default.
W2023240715 cites W1999310118 @default.
W2023240715 cites W2003400573 @default.
W2023240715 cites W2003404172 @default.
W2023240715 cites W2007621398 @default.
W2023240715 cites W2008287069 @default.
W2023240715 cites W2009875711 @default.
W2023240715 cites W2015523768 @default.
W2023240715 cites W2020643633 @default.
W2023240715 cites W2025019009 @default.
W2023240715 cites W2028204810 @default.
W2023240715 cites W2029408293 @default.
W2023240715 cites W2030016646 @default.
W2023240715 cites W2031157439 @default.
W2023240715 cites W2035616658 @default.
W2023240715 cites W2037506295 @default.
W2023240715 cites W2042778921 @default.
W2023240715 cites W2044849183 @default.
W2023240715 cites W2044999663 @default.
W2023240715 cites W2045765444 @default.
W2023240715 cites W2046499086 @default.
W2023240715 cites W2048572476 @default.
W2023240715 cites W2049275520 @default.
W2023240715 cites W2052772390 @default.
W2023240715 cites W2063252604 @default.
W2023240715 cites W2066971929 @default.
W2023240715 cites W2073528852 @default.
W2023240715 cites W2073791355 @default.
W2023240715 cites W2076481804 @default.
W2023240715 cites W2080403032 @default.
W2023240715 cites W2080821929 @default.
W2023240715 cites W2082351369 @default.
W2023240715 cites W2085802286 @default.
W2023240715 cites W2085880378 @default.
W2023240715 cites W2088651250 @default.
W2023240715 cites W2095275536 @default.
W2023240715 cites W2095358806 @default.
W2023240715 cites W2125971534 @default.
W2023240715 cites W2148418353 @default.
W2023240715 cites W2152087547 @default.
W2023240715 doi "https://doi.org/10.1016/j.surfcoat.2012.05.080" @default.
W2023240715 hasPublicationYear "2012" @default.
W2023240715 type Work @default.
W2023240715 sameAs 2023240715 @default.
W2023240715 citedByCount "39" @default.
W2023240715 countsByYear W20232407152013 @default.
W2023240715 countsByYear W20232407152014 @default.
W2023240715 countsByYear W20232407152015 @default.
W2023240715 countsByYear W20232407152016 @default.
W2023240715 countsByYear W20232407152017 @default.
W2023240715 countsByYear W20232407152018 @default.
W2023240715 countsByYear W20232407152019 @default.
W2023240715 countsByYear W20232407152020 @default.
W2023240715 countsByYear W20232407152021 @default.
W2023240715 countsByYear W20232407152022 @default.
W2023240715 countsByYear W20232407152023 @default.
W2023240715 crossrefType "journal-article" @default.
W2023240715 hasAuthorship W2023240715A5019092556 @default.
W2023240715 hasAuthorship W2023240715A5035530466 @default.
W2023240715 hasAuthorship W2023240715A5077608860 @default.
W2023240715 hasAuthorship W2023240715A5089388615 @default.
W2023240715 hasAuthorship W2023240715A5090742538 @default.
W2023240715 hasConcept C111368507 @default.
W2023240715 hasConcept C127313418 @default.
W2023240715 hasConcept C127413603 @default.
W2023240715 hasConcept C159985019 @default.
W2023240715 hasConcept C171250308 @default.
W2023240715 hasConcept C188027245 @default.
W2023240715 hasConcept C191897082 @default.
W2023240715 hasConcept C192562407 @default.
W2023240715 hasConcept C2777289219 @default.
W2023240715 hasConcept C2777431650 @default.
W2023240715 hasConcept C2778736354 @default.
W2023240715 hasConcept C2779105228 @default.
W2023240715 hasConcept C2779227376 @default.
W2023240715 hasConcept C2780017307 @default.
W2023240715 hasConcept C38347018 @default.
W2023240715 hasConcept C42360764 @default.
W2023240715 hasConcept C544956773 @default.
W2023240715 hasConcept C57410435 @default.
W2023240715 hasConcept C6556556 @default.