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W3193959621 endingPage "106462" @default.
W3193959621 startingPage "106462" @default.
W3193959621 abstract "Here we report a simple approach to produce corrosion resistant, anti-biofouling and durable graphene oxide-nano-SiO 2 -polydimethylsiloxane composite coating on carbon steel (CS) through an anodic electrophoretic deposition combined with dip coating. The corrosion resistance of the composite coatings was evaluated by electrochemical impedance and potentiodynamic polarization technique after exposure to 3.5 wt% NaCl solution. The composite coating (GSP) showed a six-order higher charge transfer resistance and polarization resistance values compared to uncoated CS due to the lower permeation of chloride ions through the GO-nano-SiO 2 interlayer and the effective filling of micro-pores by nano-SiO 2 . The Si–OH group enhanced the chemisorption of PDMS to GO-nano-SiO 2 interlayer surface that provided a strong adhesion. The cross hatch tape test of GSP coating indicated good adhesion of the coating with the substrate. Epifluorescence and confocal laser scanning microscopic analysis showed a reduced density of bacterial cell and biofilm formation on GSP coated specimens. This new approach is found to be useful to fabricate a robust corrosion resistant and anti-biofouling composite coating for marine applications. • A robust graphene oxide-SiO 2 -PDMS composite coating on carbon steel is fabricated. • Composite coating showed five orders lower corrosion current density. • The extended Si O Si cross-linkage enabled better corrosion resistance. • The cross-hatch tape adhesion test results showed a superior adhesion of the coating. • New coating showed a reduced bacterial density and biofilm formation." @default.
W3193959621 created "2021-08-30" @default.
W3193959621 creator A5005239757 @default.
W3193959621 creator A5037938497 @default.
W3193959621 creator A5041130317 @default.
W3193959621 date "2021-12-01" @default.
W3193959621 modified "2023-10-17" @default.
W3193959621 title "Fabrication of a robust graphene oxide-nano SiO2-polydimethylsiloxane composite coating on carbon steel for marine applications" @default.
W3193959621 cites W1895175426 @default.
W3193959621 cites W1952764182 @default.
W3193959621 cites W1968158350 @default.
W3193959621 cites W1972495543 @default.
W3193959621 cites W1980107574 @default.
W3193959621 cites W1986399723 @default.
W3193959621 cites W1998305055 @default.
W3193959621 cites W1998306207 @default.
W3193959621 cites W2004691383 @default.
W3193959621 cites W2008813429 @default.
W3193959621 cites W2014787553 @default.
W3193959621 cites W2016330311 @default.
W3193959621 cites W2016702964 @default.
W3193959621 cites W2027417462 @default.
W3193959621 cites W2029996758 @default.
W3193959621 cites W2037714018 @default.
W3193959621 cites W2038352319 @default.
W3193959621 cites W2048873106 @default.
W3193959621 cites W2050972165 @default.
W3193959621 cites W2055073693 @default.
W3193959621 cites W2057106445 @default.
W3193959621 cites W2057697660 @default.
W3193959621 cites W2069991968 @default.
W3193959621 cites W2077930487 @default.
W3193959621 cites W2078430923 @default.
W3193959621 cites W2109966590 @default.
W3193959621 cites W2115933619 @default.
W3193959621 cites W2191134658 @default.
W3193959621 cites W2222660335 @default.
W3193959621 cites W2319909905 @default.
W3193959621 cites W2341846316 @default.
W3193959621 cites W2404143983 @default.
W3193959621 cites W2410406769 @default.
W3193959621 cites W2414911118 @default.
W3193959621 cites W2416843329 @default.
W3193959621 cites W2508915593 @default.
W3193959621 cites W2509676083 @default.
W3193959621 cites W2514653270 @default.
W3193959621 cites W2556017331 @default.
W3193959621 cites W2570191468 @default.
W3193959621 cites W2585696326 @default.
W3193959621 cites W2587183677 @default.
W3193959621 cites W2620993523 @default.
W3193959621 cites W2669016693 @default.
W3193959621 cites W2733559764 @default.
W3193959621 cites W2749483676 @default.
W3193959621 cites W2767122768 @default.
W3193959621 cites W2767785537 @default.
W3193959621 cites W2772899649 @default.
W3193959621 cites W2785193602 @default.
W3193959621 cites W2790838468 @default.
W3193959621 cites W2792876835 @default.
W3193959621 cites W2802117933 @default.
W3193959621 cites W2806450261 @default.
W3193959621 cites W2896323434 @default.
W3193959621 cites W2921254990 @default.
W3193959621 cites W2945095884 @default.
W3193959621 cites W2945414873 @default.
W3193959621 cites W2946161620 @default.
W3193959621 cites W2946548956 @default.
W3193959621 cites W2947650429 @default.
W3193959621 cites W2949882507 @default.
W3193959621 cites W2950527324 @default.
W3193959621 cites W2999138108 @default.
W3193959621 cites W3001390526 @default.
W3193959621 cites W3008528879 @default.
W3193959621 cites W3010858681 @default.
W3193959621 cites W3038853682 @default.
W3193959621 cites W3049609194 @default.
W3193959621 cites W3082291326 @default.
W3193959621 cites W3092530864 @default.
W3193959621 cites W3095102934 @default.
W3193959621 cites W3096710109 @default.
W3193959621 cites W3097647545 @default.
W3193959621 cites W3134685913 @default.
W3193959621 cites W3144774157 @default.
W3193959621 cites W3157261189 @default.
W3193959621 cites W3161537645 @default.
W3193959621 cites W4233194460 @default.
W3193959621 cites W561807565 @default.
W3193959621 cites W599270385 @default.
W3193959621 doi "https://doi.org/10.1016/j.porgcoat.2021.106462" @default.
W3193959621 hasPublicationYear "2021" @default.
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