Fabrication of silica-decorated graphene oxide nanohybrids and the properties of composite epoxy coatings research

Fabrication of silica-decorated graphene oxide nanohybrids and the properties of composite epoxy coatings research

⿢Silica attached to graphene oxide surface with the load of homogeneous distribution is prepared.⿢Silica is anchored on graphene oxide sheets which benefits from synergistic effect of APTS and GPTS.⿢The SiO2⿿GO (1:5) sheet hybrids have fine dispersion in the epoxy resin.⿢The incorporation of SiO2⿿GO...

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Veröffentlicht in:Applied surface science 2016-01, Vol.360, p.936-945
Hauptverfasser: Ma, Yu, Di, Haihui, Yu, Zongxue, Liang, Ling, Lv, Liang, Pan, Yang, Zhang, Yangyong, Yin, Di
Format: Artikel
Sprache:eng
Schlagworte:
Coatings
Corrosion prevention
Corrosion resistance
Electrochemical impedance spectroscopy
Epoxy coatings
Graphene
Graphene oxide
Nanostructure
Resins
Sheet-like structure
Silica
Silicon dioxide
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container_end_page 945
container_issue
container_start_page 936
container_title Applied surface science
container_volume 360
creator Ma, Yu
Di, Haihui
Yu, Zongxue
Liang, Ling
Lv, Liang
Pan, Yang
Zhang, Yangyong
Yin, Di
description ⿢Silica attached to graphene oxide surface with the load of homogeneous distribution is prepared.⿢Silica is anchored on graphene oxide sheets which benefits from synergistic effect of APTS and GPTS.⿢The SiO2⿿GO (1:5) sheet hybrids have fine dispersion in the epoxy resin.⿢The incorporation of SiO2⿿GO hybrids significantly enhances corrosion resistance of epoxy coatings. With the purpose of preparing anticorrosive coatings, solvent-based epoxy resins often serve as raw material. Unfortunately, plentiful micro-pores are fabricated via solvent evaporation in the resin⿿ curing process, which is an intrinsic shortcoming and it is thus necessary to obstacle their micro-pore for enhancing antiseptic property. To reduce the intrinsic defect and increase the corrosion resistance of coating, we synthesize a series of SiO2⿿GO hybrids through anchoring silica (SiO2) on graphene oxide (GO) sheets with the help of 3-aminopropyltriethoxysilane and 3-glycidoxypropyltrimethoxysilane, and disperse the hybrids into epoxy resin at a low weight fraction of 2%. Furthermore, we investigate the appropriate preparation proportion of SiO2⿿GO hybrids (namely: SiO2⿿GO (1:5)). The electrochemical impedance spectroscopy (EIS) test and coatings⿿ morphology monitoring in corrosion process reveal that the anticorrosive performance of epoxy coatings is significantly enhanced by incorporation of SiO2⿿GO (1:5) hybrids to epoxy compared with neat epoxy and other nanofillers including SiO2 or GO at the same contents. The superiority of the SiO2⿿GO (1:5) hybrids is related to their excellent dispersion in resin and sheet-like structure.
doi_str_mv 10.1016/j.apsusc.2015.11.088
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With the purpose of preparing anticorrosive coatings, solvent-based epoxy resins often serve as raw material. Unfortunately, plentiful micro-pores are fabricated via solvent evaporation in the resin⿿ curing process, which is an intrinsic shortcoming and it is thus necessary to obstacle their micro-pore for enhancing antiseptic property. To reduce the intrinsic defect and increase the corrosion resistance of coating, we synthesize a series of SiO2⿿GO hybrids through anchoring silica (SiO2) on graphene oxide (GO) sheets with the help of 3-aminopropyltriethoxysilane and 3-glycidoxypropyltrimethoxysilane, and disperse the hybrids into epoxy resin at a low weight fraction of 2%. Furthermore, we investigate the appropriate preparation proportion of SiO2⿿GO hybrids (namely: SiO2⿿GO (1:5)). The electrochemical impedance spectroscopy (EIS) test and coatings⿿ morphology monitoring in corrosion process reveal that the anticorrosive performance of epoxy coatings is significantly enhanced by incorporation of SiO2⿿GO (1:5) hybrids to epoxy compared with neat epoxy and other nanofillers including SiO2 or GO at the same contents. 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The electrochemical impedance spectroscopy (EIS) test and coatings⿿ morphology monitoring in corrosion process reveal that the anticorrosive performance of epoxy coatings is significantly enhanced by incorporation of SiO2⿿GO (1:5) hybrids to epoxy compared with neat epoxy and other nanofillers including SiO2 or GO at the same contents. 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With the purpose of preparing anticorrosive coatings, solvent-based epoxy resins often serve as raw material. Unfortunately, plentiful micro-pores are fabricated via solvent evaporation in the resin⿿ curing process, which is an intrinsic shortcoming and it is thus necessary to obstacle their micro-pore for enhancing antiseptic property. To reduce the intrinsic defect and increase the corrosion resistance of coating, we synthesize a series of SiO2⿿GO hybrids through anchoring silica (SiO2) on graphene oxide (GO) sheets with the help of 3-aminopropyltriethoxysilane and 3-glycidoxypropyltrimethoxysilane, and disperse the hybrids into epoxy resin at a low weight fraction of 2%. Furthermore, we investigate the appropriate preparation proportion of SiO2⿿GO hybrids (namely: SiO2⿿GO (1:5)). The electrochemical impedance spectroscopy (EIS) test and coatings⿿ morphology monitoring in corrosion process reveal that the anticorrosive performance of epoxy coatings is significantly enhanced by incorporation of SiO2⿿GO (1:5) hybrids to epoxy compared with neat epoxy and other nanofillers including SiO2 or GO at the same contents. The superiority of the SiO2⿿GO (1:5) hybrids is related to their excellent dispersion in resin and sheet-like structure.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.apsusc.2015.11.088</doi><tpages>10</tpages></addata></record>
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source ScienceDirect Journals (5 years ago - present)
subjects Coatings
Corrosion prevention
Corrosion resistance
Electrochemical impedance spectroscopy
Epoxy coatings
Graphene
Graphene oxide
Nanostructure
Resins
Sheet-like structure
Silica
Silicon dioxide
title Fabrication of silica-decorated graphene oxide nanohybrids and the properties of composite epoxy coatings research
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