环境友好海洋防污涂料的新进展
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摘要
海洋污损生物附着在海洋设备表面造成设备损坏,影响海洋经济发展。海洋生物污损的防治一直是国内外研究的焦点。虽然传统的有机锡防污剂具有良好的防污效果,但会对海洋生物及环境造成危害,破坏生态平衡。因此,研究与开发环境友好型防污体系成为目前海洋防污涂料发展的主导方向。该文主要介绍近3年环境友好型防污涂料的研究进展,并对其未来的发展趋势进行了展望。
Marine biofouling attachs to the surface of marine equipment and causes damage to equipment,which affects the development of marine economy. The prevention of marine biofouling becomes a globally unsolved problem. Although the traditional organotin antifouling coating has significant antifouling property,it harms marine organisms and destroys the ecological balance. Therefore,the study and development of environmentally friendly antifouling systems become the leading direction of marine antifouling coatings. In this paper,we review the recent progress of environmentally friendly antifouling coatings within the past three years,and the development trend of marine antifouling coatings is prospected.
Marine biofouling attachs to the surface of marine equipment and causes damage to equipment,which affects the development of marine economy. The prevention of marine biofouling becomes a globally unsolved problem. Although the traditional organotin antifouling coating has significant antifouling property,it harms marine organisms and destroys the ecological balance. Therefore,the study and development of environmentally friendly antifouling systems become the leading direction of marine antifouling coatings. In this paper,we review the recent progress of environmentally friendly antifouling coatings within the past three years,and the development trend of marine antifouling coatings is prospected.
引文
[1]石敏球,林乔,张欣,等.新型船舶防污涂料的研究及其发展动向[J].广东化工,2010,37(08):21-22.
[2]Lindholdt A,Dam-Johanse K,Olse S M,et al.Effects of biofouling development on drag forces of hull coatings for ocean-going ships:a review[J].Journal of Coatings Technology and Research,2015,12(3):415-444.
[3]Sweat L H,Swain G W,Hunsucker K Z,et al.Transported biofilms and their influence on subsequent macrofouling colonization[J].Biofouling,2017,33(5):433-449.
[4]Schultz M P,Bendick J A,Holm E R,et al.Economic impact of biofouling on a naval surface ship[J].Biofouling,2011,27(1):87-98.
[5]Serrano A,Sterner O,Mieszkin S,et al.Nonfouling response of hydrophilic uncharged polymers[J].Advanced Functional Materials,2013,23(46):5706-5718.
[6]Peres R S,Baldissera A F,Armelin E,et al.Marine-friendly antifouling coating based on the use of a fatty acid derivative as a pigment[J].Materials Research-Ibero-American Journal of Materials,2014,17(3):720-727.
[7]Lejars M,Margaillan A,Bressy C.Fouling release coatings:a nontoxic alternative to biocidal antifouling coatings[J].Chemical Reviews,2012,112(8):4347-4390.
[8]Thomas L D,Shah H,Green S A,et al.Tributyltin exposure causes decreased granzyme B and perforin levels in human natural killer cells[J].Toxicology,2004,200(2-3):221-233.
[9]Yebra D M,Kiil S,Dam-Johansen K.Antifouling technology-past,present and future steps towards efficient and environmentally friendly antifouling coatings[J].Process in Organic Coatings,2004,50(2):75-104.
[10]李慧娟,王国建.船舶防污涂料研究进展[J].涂料工业,2005(3):45-49,63.
[11]Cognetti G,Maltagliati F,Pretti C.Antifouling coatings and ecological control in marinas[J].Marine Pollution Bulletin,2012,64(2):175-176.
[12]Turner A.Marine pollution from antifouling paint particles[J].Marine Pollution Bulletin,2010,60(2):159-171.
[13]Callow J A,Callow M E.Trends in the development of environmentally friendly fouling-resistant marine coatings[J].Nature Communications,2011,2(244).
[14]Hellio C.The potential of marine biotechnology for the development of new antifouling solutions[J].Journal of Sciences Halieutique Aquatique,2010,2:35-41.
[15]王俊莲,王凤奇,于杰,等.我国部分海域贝类动物内脏重金属生物存储受海洋船舶防污涂料影响的调查分析[J].科学通报,2008,8(53):900-903.
[16]Hao X P,Chen S G,Yu H,et al.Metal ion-coordinated carboxymethylated chitosan grafted carbon nanotubes with enhanced antibacterial properties[J].RSC Advances,2016,6:39-43.
[17]Wang X,Liu Y,Gong Y,et al.Liquid flame spray fabrication of polyimide-copper coatings for antifouling applications[J].Materials Letters,2017,190:217-220.
[18]Liu Y,Suo X,Wang Z,et al.Developing polyimide-copper antifouling coatings with capsule structures for sustainable release of copper[J].Materials&Design,2017,130:285-293.
[19]Garcia M,Stupak M,Perez M,et al.Transitioning to nontoxic antifouling paints[J].Pigment&Resin Technology,2015,44(2):116-121.
[20]Chen R R,Li Y K,Tang L,et al.Synthesis of zinc-based acrylate copolymers and their marine antifouling application[J].RSC Advances,2017,7:40020-40027.
[21]Yang W F,Zhao W W,Liu Y P,et al.The effect of wetting property on anti-fouling/foul-release performance under quasi-static/hydrodynamic conditions[J].Progress in Organic Coatings,2016,95:64-71.
[22]Baldissera A F,de Miranda K L,Bressy C,et al.Using conducting polymers as active agents for marine antifouling paints[J].Materials Research,2015,18(6):1129-1139.
[23]Zhang J W,Lin C G,Wang L,et al.The influence of pollution release coating properties on ship antifouling performance[J].Modern Paint Finish,2010,13(2):17-22.
[24]Zhang Y,Qi Y H,Zhang Z P,et al.Synthesis of fluorinated acrylate polymer and preparation and properties of antifouling coating[J].Journal of Coatings Technology and Research,2015,12(1):215-223.
[25]Galhenage T P,Webster D C,Moreira A M S,et al.Poly(ethylene)glycol-modified,amphiphilic,siloxane-polyurethane coatings and their performance as fouling-release surfaces[J].Journal of Coatings Technology and Research,2017,14(2):307-322.
[26]Rufin M A,Ngo B K D,Barry M E,et al.Antifouling silicones based on surface-modifying additive amphiphiles[J].Green Materials,2017,5(1):4-13.
[27]Cheng Z,Zhang F,Sun X Y,et al.Preparation and properties of amphiphilic fluorinated silicone modified acrylic resin coatings containing PEG for anti-fouling application[J].Acta Polymercia Sinica,2016(8):1112-1120.
[28]Liu C,Xie Q,Ma C,et al.Fouling release property of polydimethylsiloxane-based polyurea with improved adhesion to substrate[J].Industrial&Enginnering Chemistry Research,2016,55(23):6671-6676.
[29]Zhang Q,Liu H,Zhan X,et al.Microstructure and antibacterial performance of functionalized polyurethane based on polysiloxane tethered cationic biocides[J].RSC Advances,2015,5(95):77508-77517.
[30]Liu C,Ma C,Xie Q,et al.Self-repairing silicone coatings for marine anti-biofouling[J].Journal of Matererials Chemistry A,2017,5(30):15855-15861.
[31]The HD,Briand J,Margaillan A,et al.Polysiloxane-based block copolymers with marine bacterial anti-adhesion properties[J].Acs Applied Materials&Interfaces,2015,7(28):15578-15586.
[32]Weng B,Shang D,Jin L J,et al.Preparation and performance of silicone-based amphiphilic antifouling coating with fluorine and PEG moieties[J].Acta Polymerica Sinica,2017,6:990-998.
[33]Galhenage T P,Hoffman D,Silbert S D,et al.Fouling-release performance of silicone oil-modified siloxane-polyurethane coatings.[J].Acs Applied Materials&Interfaces,2016,8:29025-29036.
[34]Fu Y F,Yuan C Q,Bai X Q.Marine drag reduction of shark skin inspired riblet surfaces[J].Biosurface and Biotribology,2017,3:11-24.
[35]Chen L,Guo Z,Liu W.Biomimetic multi-functional superamphiphobic FOTS-Ti O2particles beyond lotus leaf[J].Acs Applied Materials&Interfaces,2016,8(40):27188-27198.
[36]Kang T,Banquy X,Heo J,et al.Mussel-inspired anchoring of polymer loops that provide superior surface lubrication and antifouling properties[J].Acs Nano,2016,10(1):930-937.
[37]Han Z,Mu Z,Yin W,et al.Biomimetic multifunctional surfaces inspired from animals[J].Advances in Colloid and Interface Science,2016,234:27-50.
[38]Xu L Q,Pranantyo D,Neoh K,et al.Thiol reactive maleimido-containing tannic acid for the bioinspired surface anchoring and post-functionalization of antifouling coatings[J].Acs Sustainable Chemistry&Engineering,2016,4(8):4264-4272.
[39]Pranantyo D,Xu L Q,Neoh K G,et al.Antifouling coatings via tethering of hyperbranched polyglycerols on biomimetic anchors[J].Industrial&Engineering Chemistry Research,2016,55(7):1890-1901.
[40]Du T,Ma S,Pei X,et al.Bio-inspired design and fabrication of micro/nano-brush dual structural surfaces for switchable oil adhesion and antifouling[J].Small,2017,13.
[41]Chen Z F,Zhao W J,Xu J H,et al.Designing environmentally benign modified silica resin coatings with biomimetic textures for antibiofouling[J].RSC Advances,2015,5:36874-36881.
[42]Pechook S,Sudakov K,Polishchuk I,et al.Bioinspired passive anti-biofouling surfaces preventing biofilm formation[J].Journal of Materials Chemistry B,2015,3(7):1371-1378.
[43]Gangadoo S,Chandra S,Power A,et al.Biomimetics for early stage biofouling prevention:templates from insect cuticles[J].Journal of Materials Chemistry B,2016,4(34):5747-5754.
[44]Yang C Y,Sun W J,Liu S J,et al.Comparative effects of indole derivatives as antifouling agents on the growth of two marine diatom species[J].Chemistry and Ecology,2015,31(4):299-307.
[45]Ramasubburayan R,Titus S,Kumar P,et al.Antifouling activity of marine epibiotic bacterium bacillus flexus APGI isolated from kanyakumari coast,tamilnadu,india[J].Indian Journal of Geo-marine Sciences,2017,46(7):1396-1400.
[46]Wu G,Jiang X H,Yu L M,et al.Synthesis and quantum chemical calculation of benzamide derivatives containing capsaicin and their bacteriostatic and antifouling properties[J].Journal of The Chinese Chemical Society,2015,62(10):861-870.
[47]Idora M S N,Ferry M,Nik W B W,et al.Evaluation of tannin from rhizophora apiculata as natural antifouling agents in epoxy paint for marine application[J].Progress in Organic Coatings,2015,81:125-131.
[48]Ramasubburayan R,Prakash S,Venkatesan S,et al.Environmentally benign antifouling activity and toxic properties of bioactive metabolites from mangrove excoecaria agallocha L.[J].Environmental Science and Pollution Research International,2017.
[49]Chen X,Zhang G,Zhang Q,et al.Preparation and performance of amphiphilic polyurethane copolymers with capsaicin-mimic and PEG moieties for protein resistance and antibacteria[J].Industrial&Engineering Chemistry Research,2015,54(15):3813-3820.
[50]Ma C F,Zhang W P,Zhang G Z,et al.Environmentally friendly antifouling coatings based on biodegradable polymer and natural antifoulant[J].ACS Sustainable Chemistry&Engineering,2017,5(7):6304-6309.
[51]Peres R S,Armelin E,Aleman C,et al.Modified tannin extracted from black wattle tree as an environmentally friendly antifouling pigment[J].Industrial Crops and Products,2015,65:506-514.
[52]Elshaarawy R F M,Mustafa F H A,van Geelen L,et al.Mining marine shell wastes for polyelectrolyte chitosan anti-biofoulants:fabrication of high-performance economic and ecofriendly antibiofouling coatings[J].Carbohydrate Polymers,2017,172:352-364.
[53]Ashraf P M,Edwin L.Nano copper oxide incorporated polyethylene glycol hydrogel:an efficient antifouling coating for cage fishing net[J].International Biodeterioration&Biodegradation,2016,115:39-48.
[54]Wirth S M,Bertuccio A J,Cao F,et al.Inhibition of bacterial surface colonization by immobilized silver nanoparticles depends critically on the planktonic bacterial concentration[J].Journal of Colloid and Interface Science,2016,467:17-27.
[55]Lin B,Zhou S.Poly(ethylene glycol)-grafted silica nanoparticles for highly hydrophilic acrylicbased polyurethane coatings[J].Progress in Organic Coatings,2017,106:145-154.
[56]Zhang J,Pan M,Luo C,et al.A novel composite paint(Ti O2/fluorinated acrylic nanocomposite)for antifouling application in marine environments[J].Journal of Environmental Chemical Engineering,2016,4(2):2545-2555.
[57]Mu Y,Wu Z,Ma Y,et al.Robust mussel-inspired coatings for controlled zinc ion release[J].Journal of Materials Chemistry B,2017,5(9):1742-1752.
[58]张金霞,周涛,潘明希,等.海洋防污用新型Ti O2/氟化丙烯酸纳米复合涂料的研制[J].湖南工业大学学报,2016,30(1):52-58.
[59]Selim M S,Shenashen M A,Elmarakbi A,et al.Synthesis of ultrahydrophobic and thermally stable inorganic-organic nanocomposites for selfcleaning foul release coatings[J].Chemical Engineering Journal,2017,320:653-666.
[60]高宏,李旭洋,陈美玲,等.纳米Si O2制备无毒疏水海洋防污涂料[J].大连交通大学学报,2009,6(30):39-41.
[61]Al-Naamani L,Dobretsov S,Dutta J,et al.Chitosan-zinc oxide nanocomposite coatings for the prevention of marine biofouling[J].Chemosphere,2017,168:408-417.
[62]El Saeed A M,Abd El-Fattah M,Azzam A M,et al.Synthesis of cuprous oxide epoxy nanocomposite as an environmentally antimicrobial coating[J].International Journal of Biological Macromolecules,2016,89:190-197.
[63]Sun S B,Zhai X,Gu D,et al.Strongly-coupled silver chloride-tungsten oxide hybrid nanocomposite with excellent antibacterial effect[J].Advanced Powder Technology,2016,27(4):1295-1300.
[64]Sankar G G,Sathya S,Murthy P S,et al.Polydimethyl siloxane nanocomposites:their antifouling efficacy in vitro and in marine conditions[J].International Biodeterioration&Biodegradation,2015,104:307-314.
[65]Selim M S,El-Safty S A,El-Sockary M A,et al.Smart photo-induced silicone/Ti O2nanocomposites with dominant exposed surfaces for selfcleaning foul-release coatings of ship hulls[J].Materials&Design,2016,101:218-225.
[2]Lindholdt A,Dam-Johanse K,Olse S M,et al.Effects of biofouling development on drag forces of hull coatings for ocean-going ships:a review[J].Journal of Coatings Technology and Research,2015,12(3):415-444.
[3]Sweat L H,Swain G W,Hunsucker K Z,et al.Transported biofilms and their influence on subsequent macrofouling colonization[J].Biofouling,2017,33(5):433-449.
[4]Schultz M P,Bendick J A,Holm E R,et al.Economic impact of biofouling on a naval surface ship[J].Biofouling,2011,27(1):87-98.
[5]Serrano A,Sterner O,Mieszkin S,et al.Nonfouling response of hydrophilic uncharged polymers[J].Advanced Functional Materials,2013,23(46):5706-5718.
[6]Peres R S,Baldissera A F,Armelin E,et al.Marine-friendly antifouling coating based on the use of a fatty acid derivative as a pigment[J].Materials Research-Ibero-American Journal of Materials,2014,17(3):720-727.
[7]Lejars M,Margaillan A,Bressy C.Fouling release coatings:a nontoxic alternative to biocidal antifouling coatings[J].Chemical Reviews,2012,112(8):4347-4390.
[8]Thomas L D,Shah H,Green S A,et al.Tributyltin exposure causes decreased granzyme B and perforin levels in human natural killer cells[J].Toxicology,2004,200(2-3):221-233.
[9]Yebra D M,Kiil S,Dam-Johansen K.Antifouling technology-past,present and future steps towards efficient and environmentally friendly antifouling coatings[J].Process in Organic Coatings,2004,50(2):75-104.
[10]李慧娟,王国建.船舶防污涂料研究进展[J].涂料工业,2005(3):45-49,63.
[11]Cognetti G,Maltagliati F,Pretti C.Antifouling coatings and ecological control in marinas[J].Marine Pollution Bulletin,2012,64(2):175-176.
[12]Turner A.Marine pollution from antifouling paint particles[J].Marine Pollution Bulletin,2010,60(2):159-171.
[13]Callow J A,Callow M E.Trends in the development of environmentally friendly fouling-resistant marine coatings[J].Nature Communications,2011,2(244).
[14]Hellio C.The potential of marine biotechnology for the development of new antifouling solutions[J].Journal of Sciences Halieutique Aquatique,2010,2:35-41.
[15]王俊莲,王凤奇,于杰,等.我国部分海域贝类动物内脏重金属生物存储受海洋船舶防污涂料影响的调查分析[J].科学通报,2008,8(53):900-903.
[16]Hao X P,Chen S G,Yu H,et al.Metal ion-coordinated carboxymethylated chitosan grafted carbon nanotubes with enhanced antibacterial properties[J].RSC Advances,2016,6:39-43.
[17]Wang X,Liu Y,Gong Y,et al.Liquid flame spray fabrication of polyimide-copper coatings for antifouling applications[J].Materials Letters,2017,190:217-220.
[18]Liu Y,Suo X,Wang Z,et al.Developing polyimide-copper antifouling coatings with capsule structures for sustainable release of copper[J].Materials&Design,2017,130:285-293.
[19]Garcia M,Stupak M,Perez M,et al.Transitioning to nontoxic antifouling paints[J].Pigment&Resin Technology,2015,44(2):116-121.
[20]Chen R R,Li Y K,Tang L,et al.Synthesis of zinc-based acrylate copolymers and their marine antifouling application[J].RSC Advances,2017,7:40020-40027.
[21]Yang W F,Zhao W W,Liu Y P,et al.The effect of wetting property on anti-fouling/foul-release performance under quasi-static/hydrodynamic conditions[J].Progress in Organic Coatings,2016,95:64-71.
[22]Baldissera A F,de Miranda K L,Bressy C,et al.Using conducting polymers as active agents for marine antifouling paints[J].Materials Research,2015,18(6):1129-1139.
[23]Zhang J W,Lin C G,Wang L,et al.The influence of pollution release coating properties on ship antifouling performance[J].Modern Paint Finish,2010,13(2):17-22.
[24]Zhang Y,Qi Y H,Zhang Z P,et al.Synthesis of fluorinated acrylate polymer and preparation and properties of antifouling coating[J].Journal of Coatings Technology and Research,2015,12(1):215-223.
[25]Galhenage T P,Webster D C,Moreira A M S,et al.Poly(ethylene)glycol-modified,amphiphilic,siloxane-polyurethane coatings and their performance as fouling-release surfaces[J].Journal of Coatings Technology and Research,2017,14(2):307-322.
[26]Rufin M A,Ngo B K D,Barry M E,et al.Antifouling silicones based on surface-modifying additive amphiphiles[J].Green Materials,2017,5(1):4-13.
[27]Cheng Z,Zhang F,Sun X Y,et al.Preparation and properties of amphiphilic fluorinated silicone modified acrylic resin coatings containing PEG for anti-fouling application[J].Acta Polymercia Sinica,2016(8):1112-1120.
[28]Liu C,Xie Q,Ma C,et al.Fouling release property of polydimethylsiloxane-based polyurea with improved adhesion to substrate[J].Industrial&Enginnering Chemistry Research,2016,55(23):6671-6676.
[29]Zhang Q,Liu H,Zhan X,et al.Microstructure and antibacterial performance of functionalized polyurethane based on polysiloxane tethered cationic biocides[J].RSC Advances,2015,5(95):77508-77517.
[30]Liu C,Ma C,Xie Q,et al.Self-repairing silicone coatings for marine anti-biofouling[J].Journal of Matererials Chemistry A,2017,5(30):15855-15861.
[31]The HD,Briand J,Margaillan A,et al.Polysiloxane-based block copolymers with marine bacterial anti-adhesion properties[J].Acs Applied Materials&Interfaces,2015,7(28):15578-15586.
[32]Weng B,Shang D,Jin L J,et al.Preparation and performance of silicone-based amphiphilic antifouling coating with fluorine and PEG moieties[J].Acta Polymerica Sinica,2017,6:990-998.
[33]Galhenage T P,Hoffman D,Silbert S D,et al.Fouling-release performance of silicone oil-modified siloxane-polyurethane coatings.[J].Acs Applied Materials&Interfaces,2016,8:29025-29036.
[34]Fu Y F,Yuan C Q,Bai X Q.Marine drag reduction of shark skin inspired riblet surfaces[J].Biosurface and Biotribology,2017,3:11-24.
[35]Chen L,Guo Z,Liu W.Biomimetic multi-functional superamphiphobic FOTS-Ti O2particles beyond lotus leaf[J].Acs Applied Materials&Interfaces,2016,8(40):27188-27198.
[36]Kang T,Banquy X,Heo J,et al.Mussel-inspired anchoring of polymer loops that provide superior surface lubrication and antifouling properties[J].Acs Nano,2016,10(1):930-937.
[37]Han Z,Mu Z,Yin W,et al.Biomimetic multifunctional surfaces inspired from animals[J].Advances in Colloid and Interface Science,2016,234:27-50.
[38]Xu L Q,Pranantyo D,Neoh K,et al.Thiol reactive maleimido-containing tannic acid for the bioinspired surface anchoring and post-functionalization of antifouling coatings[J].Acs Sustainable Chemistry&Engineering,2016,4(8):4264-4272.
[39]Pranantyo D,Xu L Q,Neoh K G,et al.Antifouling coatings via tethering of hyperbranched polyglycerols on biomimetic anchors[J].Industrial&Engineering Chemistry Research,2016,55(7):1890-1901.
[40]Du T,Ma S,Pei X,et al.Bio-inspired design and fabrication of micro/nano-brush dual structural surfaces for switchable oil adhesion and antifouling[J].Small,2017,13.
[41]Chen Z F,Zhao W J,Xu J H,et al.Designing environmentally benign modified silica resin coatings with biomimetic textures for antibiofouling[J].RSC Advances,2015,5:36874-36881.
[42]Pechook S,Sudakov K,Polishchuk I,et al.Bioinspired passive anti-biofouling surfaces preventing biofilm formation[J].Journal of Materials Chemistry B,2015,3(7):1371-1378.
[43]Gangadoo S,Chandra S,Power A,et al.Biomimetics for early stage biofouling prevention:templates from insect cuticles[J].Journal of Materials Chemistry B,2016,4(34):5747-5754.
[44]Yang C Y,Sun W J,Liu S J,et al.Comparative effects of indole derivatives as antifouling agents on the growth of two marine diatom species[J].Chemistry and Ecology,2015,31(4):299-307.
[45]Ramasubburayan R,Titus S,Kumar P,et al.Antifouling activity of marine epibiotic bacterium bacillus flexus APGI isolated from kanyakumari coast,tamilnadu,india[J].Indian Journal of Geo-marine Sciences,2017,46(7):1396-1400.
[46]Wu G,Jiang X H,Yu L M,et al.Synthesis and quantum chemical calculation of benzamide derivatives containing capsaicin and their bacteriostatic and antifouling properties[J].Journal of The Chinese Chemical Society,2015,62(10):861-870.
[47]Idora M S N,Ferry M,Nik W B W,et al.Evaluation of tannin from rhizophora apiculata as natural antifouling agents in epoxy paint for marine application[J].Progress in Organic Coatings,2015,81:125-131.
[48]Ramasubburayan R,Prakash S,Venkatesan S,et al.Environmentally benign antifouling activity and toxic properties of bioactive metabolites from mangrove excoecaria agallocha L.[J].Environmental Science and Pollution Research International,2017.
[49]Chen X,Zhang G,Zhang Q,et al.Preparation and performance of amphiphilic polyurethane copolymers with capsaicin-mimic and PEG moieties for protein resistance and antibacteria[J].Industrial&Engineering Chemistry Research,2015,54(15):3813-3820.
[50]Ma C F,Zhang W P,Zhang G Z,et al.Environmentally friendly antifouling coatings based on biodegradable polymer and natural antifoulant[J].ACS Sustainable Chemistry&Engineering,2017,5(7):6304-6309.
[51]Peres R S,Armelin E,Aleman C,et al.Modified tannin extracted from black wattle tree as an environmentally friendly antifouling pigment[J].Industrial Crops and Products,2015,65:506-514.
[52]Elshaarawy R F M,Mustafa F H A,van Geelen L,et al.Mining marine shell wastes for polyelectrolyte chitosan anti-biofoulants:fabrication of high-performance economic and ecofriendly antibiofouling coatings[J].Carbohydrate Polymers,2017,172:352-364.
[53]Ashraf P M,Edwin L.Nano copper oxide incorporated polyethylene glycol hydrogel:an efficient antifouling coating for cage fishing net[J].International Biodeterioration&Biodegradation,2016,115:39-48.
[54]Wirth S M,Bertuccio A J,Cao F,et al.Inhibition of bacterial surface colonization by immobilized silver nanoparticles depends critically on the planktonic bacterial concentration[J].Journal of Colloid and Interface Science,2016,467:17-27.
[55]Lin B,Zhou S.Poly(ethylene glycol)-grafted silica nanoparticles for highly hydrophilic acrylicbased polyurethane coatings[J].Progress in Organic Coatings,2017,106:145-154.
[56]Zhang J,Pan M,Luo C,et al.A novel composite paint(Ti O2/fluorinated acrylic nanocomposite)for antifouling application in marine environments[J].Journal of Environmental Chemical Engineering,2016,4(2):2545-2555.
[57]Mu Y,Wu Z,Ma Y,et al.Robust mussel-inspired coatings for controlled zinc ion release[J].Journal of Materials Chemistry B,2017,5(9):1742-1752.
[58]张金霞,周涛,潘明希,等.海洋防污用新型Ti O2/氟化丙烯酸纳米复合涂料的研制[J].湖南工业大学学报,2016,30(1):52-58.
[59]Selim M S,Shenashen M A,Elmarakbi A,et al.Synthesis of ultrahydrophobic and thermally stable inorganic-organic nanocomposites for selfcleaning foul release coatings[J].Chemical Engineering Journal,2017,320:653-666.
[60]高宏,李旭洋,陈美玲,等.纳米Si O2制备无毒疏水海洋防污涂料[J].大连交通大学学报,2009,6(30):39-41.
[61]Al-Naamani L,Dobretsov S,Dutta J,et al.Chitosan-zinc oxide nanocomposite coatings for the prevention of marine biofouling[J].Chemosphere,2017,168:408-417.
[62]El Saeed A M,Abd El-Fattah M,Azzam A M,et al.Synthesis of cuprous oxide epoxy nanocomposite as an environmentally antimicrobial coating[J].International Journal of Biological Macromolecules,2016,89:190-197.
[63]Sun S B,Zhai X,Gu D,et al.Strongly-coupled silver chloride-tungsten oxide hybrid nanocomposite with excellent antibacterial effect[J].Advanced Powder Technology,2016,27(4):1295-1300.
[64]Sankar G G,Sathya S,Murthy P S,et al.Polydimethyl siloxane nanocomposites:their antifouling efficacy in vitro and in marine conditions[J].International Biodeterioration&Biodegradation,2015,104:307-314.
[65]Selim M S,El-Safty S A,El-Sockary M A,et al.Smart photo-induced silicone/Ti O2nanocomposites with dominant exposed surfaces for selfcleaning foul-release coatings of ship hulls[J].Materials&Design,2016,101:218-225.