固体表面改性用于防治生物污损研究进展
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摘要
通过物理化学方法使固体表面性质发生改变的技术称为固体表面改性技术。改变固体的表面性质能够使细菌、硅藻等污损生物及其胞外聚合物质难以附着以达到防污的目的,是目前生物防污的主要手段。本文简述了生物污损的形成过程、形成机理及影响因素,并在此基础上综述固体表面改性技术在防治生物污损方面应用的研究进展。同时,结合多学科的交叉发展,对未来防污手段作了展望,为防污方面的固体表面改性技术研究提供参考。
As the major methods to prevent biofouling,surface engineering could be defined as a technique of adjusting solid surface properties through physical or chemical methods to prevent the adhesion of microorganism,diatom and some macromolecules. The formation processes,mechanism as well as the influencing factors of biofouling were sketched in the present review. The application of solid surface engineering in the prevention of biofouling was also reviewed.
As the major methods to prevent biofouling,surface engineering could be defined as a technique of adjusting solid surface properties through physical or chemical methods to prevent the adhesion of microorganism,diatom and some macromolecules. The formation processes,mechanism as well as the influencing factors of biofouling were sketched in the present review. The application of solid surface engineering in the prevention of biofouling was also reviewed.
引文
[1]许凤玲,刘升发,侯保荣.海洋生物污损研究进展[J].海洋湖沼通报,2008(1):146-152.
[2]田俊杰,刘刚,曲政.石油平台海生物污损的防治方法[J].腐蚀与防护,2003,24(10):450-451.
[3]CALLOW M E,CALLOW J A.Marine biofouling:a sticky problem[J].Biologist,2002,49(1):1-5.
[4]沈钟.固体表面改性及其应用:固体表面改性基础知识[J].化工进展,1999(2):41-47.
[5]Al-JUBOORI R A,YUSAF T.Biofouling in RO system:Mechanisms,monitoring and controlling[J].Desalination,2012,302:1-23.
[6]BUSSCHER H J,NORDE W,SHARMA P K,et al.Interfacial re-arrangement in initial microbial adhesion to surfaces[J].Current Opinion in Colloid and Interface Science,2010,15(6):510-517.
[7]BUSSCHER H J,WEERKAMP A H.Specific and non-specific interactions in bacterial adhesion to solid substrata[J].FEMS Microbiology Letters,1987,46(2):165-173.
[8]HERMANSSON M.The DLVO theory in microbial adhesion[J].Colloids and Surfaces B:Biointerfaces,1999,14(1):105-119.
[9]GHAYENI SB SADR,BEATSON P J,SCHNEIDER R P,et al.Adhesion of waste water bacteria to reverse osmosis membranes[J].Journal of Membrane Science,1998,138(1):29-42.
[10]HERZBERG M,ELIMELECH M.Biofouling of reverse osmosis membranes:role of biofilm-enhanced osmotic pressure[J].Journal of Membrane Science,2007,295(2):11-20.
[11]BRANT J A,CHILDRESS A E.Assessing short-range membrane-colloid interactions using surface energetics[J].Journal of Membrane Science,2002,203(1):257-273.
[12]FLEMMING H C.Microbial Biofouling:Unsolved Problems,Insufficient Approaches,and Possible Solutions[J].Biofilm Highlights,2011,5:81-109.
[13]HORI K,MATSUMOTO S.Bacterial adhesion:From mechanism to control[J].Biochemical Engineering Journal,2010,48(3):424-434.
[14]KANG S,CHOI H.Effect of surface hydrophobicity on the adhesion of S.cerevisiae onto modified surfaces by poly(styreneran-sulfonic acid)random copolymers[J].Colloids Surfaces B:Biointerfaces,2005,46(2):70-77.
[15]HERZBERG M,KANG S,ELIMELECH M.Role of extracellular polymeric substances(EPS)in biofouling of reverse osmosis membranes[J].Environ Sci Technol,2009,43(12):4393-4398.
[16]BAIER R E.Adsorption of Micro-Organisms to Surface[M].New York:Wiley Interscience,1980.59-104.
[17]李燕.海洋硅藻在固相表面的附着机理与控制研究[D].青岛:中国石油大学,2009.
[18]NISHINO T,MEGURO M,NAKAMAE K,et al.The lowest surface free energy based on-CF3alignment[J].Langmuir,1999,15(13):4321-4323.
[19]LI Y,GAO Y H,LI X S,et al.Influence of surface free energy on the adhesion of marine benthic diatom Nitzschia closterium MMDL533[J].Colloids and Surface B:Biointerfaces,2010,75(2):550-556.
[20]FINLAY J A,CALLOW M E,ISTA L K,et al.The influence of surface wettability on the adhesion strength of settled spores of the green alga Enteromorpha and the diatom Amphora[J].Integr Comp Biol,2002,42(6):1116-1122.
[21]FENG L,YANG Z,ZHAI J,et al.Superhydrophobicity of nanostructured carbon films in a wide range of p H values[J].Angewandte Chemie,2003,115(35):4349-4352.
[22]ZHANG F,CHEN S,DONG L,et al.Preparation of superhydrophobic films on titanium as effective corrosion barriers[J].Applied Surface Science,2011,257(7):2587-2591.
[23]ROLLA G,ELLINGSEN JE,HERLOFSON B.Enhancement and inhibition of dental plaque formation-some old and new concepts[J].Biofouling,1991,3(3):175-181.
[24]QUIRYNEN M,VAN H C,BOLLEN C M L,et al.Clinical relevance of the influence of surface free energy and roughness on the supragingival and subgingival plaque formation in man[J].Colloid and Surfaces B:Biointerfaces,1994,2(3):25-31.
[25]EVERAERT E P J M,MAHIEU H F,BELT-GRITTER B,et al.Biofilm formation in vivo on perfluoro-alkylsiloxane-modified voice prostheses[J].Arch Otolaryngol Head Neck Surg,1999,125(12):1329-1332.
[26]MAHALAKSHMI P V,VANITHAKUMARI S C,GOPAL J,et al.Enhancing corrosion and biofouling resistance through superhydrophobic surface modification[J].Curr Sci,2011,101(10):1328-1336.
[27]CHIEN H W,TSAI C C,TSAI W B,et al.Surface conjugation of zwitterionic polymers to inhibit cell adhesion and protein adsorption[J].Colloids and Surface B:Biointerfaces,2013,107:152-159.
[28]WANG X,WU G,LU C,et al.Synthesis of a novel zwitterionic biodegradable poly(α,β-l-aspartic acid)derivative with some l-histidine side-residues and its resistance to non-specific potein adsorption[J].Colloids and Surface B:Biointerfaces,2011,86(1):237-241.
[29]LI S,WU Z,TANG H,et al.Selective adsorption of protein on micropatterned flexible poly(ethylene terephthalate)surfaces modified by vacuum ultraviolet lithography[J].Appl Surf Sci,2012,258(10):4222-4227.
[30]CAI W,WU J,XI C,et al.Diazeniumdiolate-doped poly(lactic-co-glycolic acid)-based nitric oxide releasing films as antibiofilm coatings[J].Biomaterials,2012,33(32):7933-7944.
[31]BOXLER C,AUGUSTIN W,SCHOLL S.Cleaning of whey protein and milk salts soiled on DLC coated surfaces at hightemperature[J].J Food Eng,2013,114(1):29-38.
[32]ROSENHAHN A,FINLAY J A,PETTIT M E,et al.Zeta potential of motile spores of the green alga Ulva linza and the influence of electrostatic interactions on spore settlement and adhesion strength[J].Biointerphases,2009,4(1):7-11.
[33]KHANDEPARKER L,KUMAR S K.Significance of biofilm proteins in modulating cyprid metamorphosis of Balanus amphitrite(Cirripedia:Thoracica)[J].Mar Ecol,2011,32(4):509-520.
[34]SEN D,SARKAR A,GOSLING A,et al.Feasibility study of enzyme immobilization on polymeric membrane:A case study with enzymatically galacto-oligosaccharides production from lactose[J].J of Membr Sci,2011,378(1):471-478.
[35]TASSO M,CONLAN SL,CLARE AS,et al.Active enzyme nanocoatings affect settlement of balanus amphitrite barnacle cyprids[J].Adv Funct Mater,2012,22(1):39-47.
[36]ZANAROLI G,NEGRONI A,CALISTI C,et al.Selection of commercial hydrolytic enzymes with potential antifouling activity in marine environments[J].Enzyme Microb Technol,2011,49(6):574-579.
[37]张少云,郑纪勇,付玉彬,等.天然防污剂—神经酰胺[J].上海涂料,2011,49(1):22-24.
[38]LI P,CAI X,WANG D,et al.Hemocompatibility and antibiofouling property improvement of poly(ethylene terephthalate)via self-polymerization of dopamine and covalent graft of zwitterionic cysteine[J].Colloids and Surface B:Biointerfaces,2013,110:327-332.
[39]AWSIUK K,BUDKOWSKI A,PSAROULI A,et al.Protein adsorption and covalent bonding to silicon nitride surfaces modified with organo-silanes:Comparison using AFM,angle-resolved XPS and multivariate To F-SIMS analysis[J].Colloids and Surface B:Biointerfaces,2013,110:217-224.
[40]SALVAGNI E,BERGUIG G,ENGEL E,et al.A bioactive elastin-like recombinamer reduces unspecific protein adsorption and enhances cell response on titanium surfaces[J].Colloids and Surface B:Biointerfaces,2014,114:225-233.
[41]MELAND H G,Rv-Johnsen A,SMISTAD G,et al.Studies on surface coating of phospholipid vesicles with a non-ionic polymer[J].Colloids and Surface B:Biointerfaces,2014,114:45-52.
[42]GUGAN C,GARDERES J,PENNEC G L,et al.Alteration of bacterial adhesion induced by the substrate stiffness[J].Colloids and Surface B:Biointerfaces,2014,114:193-200.
[2]田俊杰,刘刚,曲政.石油平台海生物污损的防治方法[J].腐蚀与防护,2003,24(10):450-451.
[3]CALLOW M E,CALLOW J A.Marine biofouling:a sticky problem[J].Biologist,2002,49(1):1-5.
[4]沈钟.固体表面改性及其应用:固体表面改性基础知识[J].化工进展,1999(2):41-47.
[5]Al-JUBOORI R A,YUSAF T.Biofouling in RO system:Mechanisms,monitoring and controlling[J].Desalination,2012,302:1-23.
[6]BUSSCHER H J,NORDE W,SHARMA P K,et al.Interfacial re-arrangement in initial microbial adhesion to surfaces[J].Current Opinion in Colloid and Interface Science,2010,15(6):510-517.
[7]BUSSCHER H J,WEERKAMP A H.Specific and non-specific interactions in bacterial adhesion to solid substrata[J].FEMS Microbiology Letters,1987,46(2):165-173.
[8]HERMANSSON M.The DLVO theory in microbial adhesion[J].Colloids and Surfaces B:Biointerfaces,1999,14(1):105-119.
[9]GHAYENI SB SADR,BEATSON P J,SCHNEIDER R P,et al.Adhesion of waste water bacteria to reverse osmosis membranes[J].Journal of Membrane Science,1998,138(1):29-42.
[10]HERZBERG M,ELIMELECH M.Biofouling of reverse osmosis membranes:role of biofilm-enhanced osmotic pressure[J].Journal of Membrane Science,2007,295(2):11-20.
[11]BRANT J A,CHILDRESS A E.Assessing short-range membrane-colloid interactions using surface energetics[J].Journal of Membrane Science,2002,203(1):257-273.
[12]FLEMMING H C.Microbial Biofouling:Unsolved Problems,Insufficient Approaches,and Possible Solutions[J].Biofilm Highlights,2011,5:81-109.
[13]HORI K,MATSUMOTO S.Bacterial adhesion:From mechanism to control[J].Biochemical Engineering Journal,2010,48(3):424-434.
[14]KANG S,CHOI H.Effect of surface hydrophobicity on the adhesion of S.cerevisiae onto modified surfaces by poly(styreneran-sulfonic acid)random copolymers[J].Colloids Surfaces B:Biointerfaces,2005,46(2):70-77.
[15]HERZBERG M,KANG S,ELIMELECH M.Role of extracellular polymeric substances(EPS)in biofouling of reverse osmosis membranes[J].Environ Sci Technol,2009,43(12):4393-4398.
[16]BAIER R E.Adsorption of Micro-Organisms to Surface[M].New York:Wiley Interscience,1980.59-104.
[17]李燕.海洋硅藻在固相表面的附着机理与控制研究[D].青岛:中国石油大学,2009.
[18]NISHINO T,MEGURO M,NAKAMAE K,et al.The lowest surface free energy based on-CF3alignment[J].Langmuir,1999,15(13):4321-4323.
[19]LI Y,GAO Y H,LI X S,et al.Influence of surface free energy on the adhesion of marine benthic diatom Nitzschia closterium MMDL533[J].Colloids and Surface B:Biointerfaces,2010,75(2):550-556.
[20]FINLAY J A,CALLOW M E,ISTA L K,et al.The influence of surface wettability on the adhesion strength of settled spores of the green alga Enteromorpha and the diatom Amphora[J].Integr Comp Biol,2002,42(6):1116-1122.
[21]FENG L,YANG Z,ZHAI J,et al.Superhydrophobicity of nanostructured carbon films in a wide range of p H values[J].Angewandte Chemie,2003,115(35):4349-4352.
[22]ZHANG F,CHEN S,DONG L,et al.Preparation of superhydrophobic films on titanium as effective corrosion barriers[J].Applied Surface Science,2011,257(7):2587-2591.
[23]ROLLA G,ELLINGSEN JE,HERLOFSON B.Enhancement and inhibition of dental plaque formation-some old and new concepts[J].Biofouling,1991,3(3):175-181.
[24]QUIRYNEN M,VAN H C,BOLLEN C M L,et al.Clinical relevance of the influence of surface free energy and roughness on the supragingival and subgingival plaque formation in man[J].Colloid and Surfaces B:Biointerfaces,1994,2(3):25-31.
[25]EVERAERT E P J M,MAHIEU H F,BELT-GRITTER B,et al.Biofilm formation in vivo on perfluoro-alkylsiloxane-modified voice prostheses[J].Arch Otolaryngol Head Neck Surg,1999,125(12):1329-1332.
[26]MAHALAKSHMI P V,VANITHAKUMARI S C,GOPAL J,et al.Enhancing corrosion and biofouling resistance through superhydrophobic surface modification[J].Curr Sci,2011,101(10):1328-1336.
[27]CHIEN H W,TSAI C C,TSAI W B,et al.Surface conjugation of zwitterionic polymers to inhibit cell adhesion and protein adsorption[J].Colloids and Surface B:Biointerfaces,2013,107:152-159.
[28]WANG X,WU G,LU C,et al.Synthesis of a novel zwitterionic biodegradable poly(α,β-l-aspartic acid)derivative with some l-histidine side-residues and its resistance to non-specific potein adsorption[J].Colloids and Surface B:Biointerfaces,2011,86(1):237-241.
[29]LI S,WU Z,TANG H,et al.Selective adsorption of protein on micropatterned flexible poly(ethylene terephthalate)surfaces modified by vacuum ultraviolet lithography[J].Appl Surf Sci,2012,258(10):4222-4227.
[30]CAI W,WU J,XI C,et al.Diazeniumdiolate-doped poly(lactic-co-glycolic acid)-based nitric oxide releasing films as antibiofilm coatings[J].Biomaterials,2012,33(32):7933-7944.
[31]BOXLER C,AUGUSTIN W,SCHOLL S.Cleaning of whey protein and milk salts soiled on DLC coated surfaces at hightemperature[J].J Food Eng,2013,114(1):29-38.
[32]ROSENHAHN A,FINLAY J A,PETTIT M E,et al.Zeta potential of motile spores of the green alga Ulva linza and the influence of electrostatic interactions on spore settlement and adhesion strength[J].Biointerphases,2009,4(1):7-11.
[33]KHANDEPARKER L,KUMAR S K.Significance of biofilm proteins in modulating cyprid metamorphosis of Balanus amphitrite(Cirripedia:Thoracica)[J].Mar Ecol,2011,32(4):509-520.
[34]SEN D,SARKAR A,GOSLING A,et al.Feasibility study of enzyme immobilization on polymeric membrane:A case study with enzymatically galacto-oligosaccharides production from lactose[J].J of Membr Sci,2011,378(1):471-478.
[35]TASSO M,CONLAN SL,CLARE AS,et al.Active enzyme nanocoatings affect settlement of balanus amphitrite barnacle cyprids[J].Adv Funct Mater,2012,22(1):39-47.
[36]ZANAROLI G,NEGRONI A,CALISTI C,et al.Selection of commercial hydrolytic enzymes with potential antifouling activity in marine environments[J].Enzyme Microb Technol,2011,49(6):574-579.
[37]张少云,郑纪勇,付玉彬,等.天然防污剂—神经酰胺[J].上海涂料,2011,49(1):22-24.
[38]LI P,CAI X,WANG D,et al.Hemocompatibility and antibiofouling property improvement of poly(ethylene terephthalate)via self-polymerization of dopamine and covalent graft of zwitterionic cysteine[J].Colloids and Surface B:Biointerfaces,2013,110:327-332.
[39]AWSIUK K,BUDKOWSKI A,PSAROULI A,et al.Protein adsorption and covalent bonding to silicon nitride surfaces modified with organo-silanes:Comparison using AFM,angle-resolved XPS and multivariate To F-SIMS analysis[J].Colloids and Surface B:Biointerfaces,2013,110:217-224.
[40]SALVAGNI E,BERGUIG G,ENGEL E,et al.A bioactive elastin-like recombinamer reduces unspecific protein adsorption and enhances cell response on titanium surfaces[J].Colloids and Surface B:Biointerfaces,2014,114:225-233.
[41]MELAND H G,Rv-Johnsen A,SMISTAD G,et al.Studies on surface coating of phospholipid vesicles with a non-ionic polymer[J].Colloids and Surface B:Biointerfaces,2014,114:45-52.
[42]GUGAN C,GARDERES J,PENNEC G L,et al.Alteration of bacterial adhesion induced by the substrate stiffness[J].Colloids and Surface B:Biointerfaces,2014,114:193-200.