仿生防污涂料的研究进展
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摘要
综述了表面微结构型防污涂料、防污剂释放型防污涂料、防渗型防污涂料3类解决海洋污损问题的环境友好型仿生防污涂料,以及相关的基本防污机理和实例,并展望了环境友好型防污涂料的发展方向。
This paper reviews three kinds of environmentally friendly biomimetic antifouling coatings such as surface microstructure antifouling coatings,antifouling agent-releasing antifouling coatings and anti-seepage antifouling coatings,which can solve problems of marine fouling.The related basic antifouling mechanisms and examples are also introduced and the development direction of environmentally friendly antifouling coatings is expected.
This paper reviews three kinds of environmentally friendly biomimetic antifouling coatings such as surface microstructure antifouling coatings,antifouling agent-releasing antifouling coatings and anti-seepage antifouling coatings,which can solve problems of marine fouling.The related basic antifouling mechanisms and examples are also introduced and the development direction of environmentally friendly antifouling coatings is expected.
引文
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[3]Michael R D,Ciriminna R,Bright F V,et al. Environmentally benign Sol-Gel antifouling and Foul-Releasing coatings[J].Accounts of Chemical Research,2014,47(2):678-687.
[4]金晓鸿.海洋污损生物防除技术和发展(Ⅲ)[J].材料开发与应用,2006,(1):44-46.
[5]Dafforn K A,Lewis J A,Johnston E L.Antifouling strategies:History and regulation,ecological impacts and mitigation[J].Marine Pollution Bulletin,2011,62(3):453-465.
[6]IMO.International convention on the control of harmful antifouling systems on ships,International Maritine Organisation[R/OL].London,2001.
[7]黄艳,胡晖,梁国正.新型无毒防污涂料[J].现代涂料与涂装,2005,(1):37-40.
[8]王钧宇.仿生无毒舰船防污涂料及其制法:CN,1392208[P].2002-06-28.
[9]李森,王源升,余红伟,等.仿生防污技术的现状及展望[J].材料开发与应用,2012,27(6):78-80,95.
[10]王科,于雪艳,陈绍平,等.硅油对低表面能有机硅防污涂料性能的影响[J].涂料工业,2009,(5):39-42,46.
[11]Scardino A J,De Nys R.Mini review:Biomimetic models and bioinspired surfaces for fouling control[J].Biofouling,2011,27(1):73-86.
[12]李志宏.仿生防污涂层的构建及其性能研究[D].天津:中国人民解放军军事医学科学院,2014.
[13]Xiao Linlin,Finlay J A,Roehrig M,et al. Topographic cues guide the attachment of diatom cells and algal zoospores[J]. Biofouling,2018,34(1):86-97.
[14]Shravanthi T R,Kenneth K C,Mcdaniel C J,et al.Micropatterned surfaces for reducing the risk of Catheter-Associated urinary tract infection:An in vitro study on the effect of sharklet micropatterned surfaces to inhibit bacterial colonization and migration of uropathogenic escherichia COLI[J].Journal of Endourology,2011,25(9):1547-1552.
[15]Sullivan T,Regan F.Marine diatom settlement on microtextured materials in static field trials[J]. Journal of Materials Science,2017,52(10):5846-5856.
[16]Arisoy F D,Kristopher W K,Homyak B,et al.Bioinspired photocatalytic Shark-Skin surfaces with antibacterial and antifouling activity via nanoimprint lithography[J]. ACS Applied Materials&Interfaces,2018,10(23):20055-20063.
[17]Lu Zhiwei,Chen Zhuo,Guo Yi,et al. Flexible hydrophobic antifouling coating with oriented nanotopography and nonleaking capsaicin[J].ACS Applied Materials&Interfaces,2018,10(11):9718-9726.
[18]Qian P,Li Z,Xu Y,et al.Mini-review:Marine natural products and their synthetic analogs as antifouling compounds[J]. Biofouling,2015,31(1):101-122.
[19]Salama A J,Balqadi A A,Satheesh S.Antifouling activities of methanolic extracts of three macroalgal species from the Red Sea[J].Journal of Applied Phycology,2018,30(3):1943-1953.
[20]Hui Liu,Chen Siyu,Guo Jiaying,et al.Effective natural antifouling compounds from the plant Nerium oleander and testing[J].International Biodeterioration&Biodegradation,2018,127(2018):170-177.
[21]Moodie L K,Rozenn T,Gunnar C,et al.Prevention of Marine biofouling using the natural allelopathic compound Batatasin-Ill and synthetic analogues[J].Journal of Natural Products,2017,80(7):2001-2011.
[22]于晓琳,于良民,姜晓辉.具类辣素结构丙烯酰胺的合成及其抑菌和防污性能[J].应用化学,2014,31(5):594-599.
[23]Tasso M,Conlan S L,Clare A S,et al.Active enzyme nanocoatings affect settlement of balanus amphitrite barnacle cyprids[J]. Advanced Functional Materials,2012,22(1):39-47.
[24]Kharchenko U,Beleneva I,Dmitrieva E. Antifouling potential of a Marine strain,Pseudomonas aeruginosa 1242,isolated from brass microfouling in Vietnam[J]. International Biodeterioration&Biodegradation,2012,75(2012):68-74.
[25]Chen Shenfu,Li Lingyan,Zhao Chao,et al.Surface hydration:Principles and applications toward low-fouling/nonfouling biomaterials[J].Polymer,2010,51(23):5283-5293.
[26]王科,于雪艳,陈绍平,等.硅油对低表面能有机硅防污涂料性能的影响[J].涂料工业,2009,39(5):39-42,46.
[27]Amini S,Stefan K,Petrone L,et al. Preventing mussel adhesion using lubricant-infused materials[J]. Science,2017,357(6352):668-673.
[28]George W G,Lisandra L M,Tabor R F,et al.Lubricin:A versatile,biological anti-adhesive with properties comparable to polyethylene glycol[J].Biomaterials,2015,53(2015):127-136.
[29]Wang Guangzhi,Wang Longgang,Lin Weifeng,et al. Development of robust and recoverable Ultralow-Fouling coatings based on poly(carboxybetaine)ester analogue[J].ACS Applied Materials&Interfaces,2015,7(31):16938-16945.
[30]Wang B L,Jin T W,Han Y M,et al.Bio-inspired terpolymers containing dopamine,cations and MPC:A versatile platform to construct a recycle antibacterial and antifouling surface[J].Journal of Materials Chemistry B,2015,3(27):5501-5510.
[2]胥震,欧阳清,易定和.海洋污损生物防除方法概述及发展趋势[J].腐蚀科学与防护技术,2012,24(3):192-198.
[3]Michael R D,Ciriminna R,Bright F V,et al. Environmentally benign Sol-Gel antifouling and Foul-Releasing coatings[J].Accounts of Chemical Research,2014,47(2):678-687.
[4]金晓鸿.海洋污损生物防除技术和发展(Ⅲ)[J].材料开发与应用,2006,(1):44-46.
[5]Dafforn K A,Lewis J A,Johnston E L.Antifouling strategies:History and regulation,ecological impacts and mitigation[J].Marine Pollution Bulletin,2011,62(3):453-465.
[6]IMO.International convention on the control of harmful antifouling systems on ships,International Maritine Organisation[R/OL].London,2001.
[7]黄艳,胡晖,梁国正.新型无毒防污涂料[J].现代涂料与涂装,2005,(1):37-40.
[8]王钧宇.仿生无毒舰船防污涂料及其制法:CN,1392208[P].2002-06-28.
[9]李森,王源升,余红伟,等.仿生防污技术的现状及展望[J].材料开发与应用,2012,27(6):78-80,95.
[10]王科,于雪艳,陈绍平,等.硅油对低表面能有机硅防污涂料性能的影响[J].涂料工业,2009,(5):39-42,46.
[11]Scardino A J,De Nys R.Mini review:Biomimetic models and bioinspired surfaces for fouling control[J].Biofouling,2011,27(1):73-86.
[12]李志宏.仿生防污涂层的构建及其性能研究[D].天津:中国人民解放军军事医学科学院,2014.
[13]Xiao Linlin,Finlay J A,Roehrig M,et al. Topographic cues guide the attachment of diatom cells and algal zoospores[J]. Biofouling,2018,34(1):86-97.
[14]Shravanthi T R,Kenneth K C,Mcdaniel C J,et al.Micropatterned surfaces for reducing the risk of Catheter-Associated urinary tract infection:An in vitro study on the effect of sharklet micropatterned surfaces to inhibit bacterial colonization and migration of uropathogenic escherichia COLI[J].Journal of Endourology,2011,25(9):1547-1552.
[15]Sullivan T,Regan F.Marine diatom settlement on microtextured materials in static field trials[J]. Journal of Materials Science,2017,52(10):5846-5856.
[16]Arisoy F D,Kristopher W K,Homyak B,et al.Bioinspired photocatalytic Shark-Skin surfaces with antibacterial and antifouling activity via nanoimprint lithography[J]. ACS Applied Materials&Interfaces,2018,10(23):20055-20063.
[17]Lu Zhiwei,Chen Zhuo,Guo Yi,et al. Flexible hydrophobic antifouling coating with oriented nanotopography and nonleaking capsaicin[J].ACS Applied Materials&Interfaces,2018,10(11):9718-9726.
[18]Qian P,Li Z,Xu Y,et al.Mini-review:Marine natural products and their synthetic analogs as antifouling compounds[J]. Biofouling,2015,31(1):101-122.
[19]Salama A J,Balqadi A A,Satheesh S.Antifouling activities of methanolic extracts of three macroalgal species from the Red Sea[J].Journal of Applied Phycology,2018,30(3):1943-1953.
[20]Hui Liu,Chen Siyu,Guo Jiaying,et al.Effective natural antifouling compounds from the plant Nerium oleander and testing[J].International Biodeterioration&Biodegradation,2018,127(2018):170-177.
[21]Moodie L K,Rozenn T,Gunnar C,et al.Prevention of Marine biofouling using the natural allelopathic compound Batatasin-Ill and synthetic analogues[J].Journal of Natural Products,2017,80(7):2001-2011.
[22]于晓琳,于良民,姜晓辉.具类辣素结构丙烯酰胺的合成及其抑菌和防污性能[J].应用化学,2014,31(5):594-599.
[23]Tasso M,Conlan S L,Clare A S,et al.Active enzyme nanocoatings affect settlement of balanus amphitrite barnacle cyprids[J]. Advanced Functional Materials,2012,22(1):39-47.
[24]Kharchenko U,Beleneva I,Dmitrieva E. Antifouling potential of a Marine strain,Pseudomonas aeruginosa 1242,isolated from brass microfouling in Vietnam[J]. International Biodeterioration&Biodegradation,2012,75(2012):68-74.
[25]Chen Shenfu,Li Lingyan,Zhao Chao,et al.Surface hydration:Principles and applications toward low-fouling/nonfouling biomaterials[J].Polymer,2010,51(23):5283-5293.
[26]王科,于雪艳,陈绍平,等.硅油对低表面能有机硅防污涂料性能的影响[J].涂料工业,2009,39(5):39-42,46.
[27]Amini S,Stefan K,Petrone L,et al. Preventing mussel adhesion using lubricant-infused materials[J]. Science,2017,357(6352):668-673.
[28]George W G,Lisandra L M,Tabor R F,et al.Lubricin:A versatile,biological anti-adhesive with properties comparable to polyethylene glycol[J].Biomaterials,2015,53(2015):127-136.
[29]Wang Guangzhi,Wang Longgang,Lin Weifeng,et al. Development of robust and recoverable Ultralow-Fouling coatings based on poly(carboxybetaine)ester analogue[J].ACS Applied Materials&Interfaces,2015,7(31):16938-16945.
[30]Wang B L,Jin T W,Han Y M,et al.Bio-inspired terpolymers containing dopamine,cations and MPC:A versatile platform to construct a recycle antibacterial and antifouling surface[J].Journal of Materials Chemistry B,2015,3(27):5501-5510.
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