[1]徐氏基金會,1991,「塗料概論」,P234-238。
[2]魏璞強,1995,「建築物常用高分子防水材料耐久性之研究」,國立成功大學建築研究所,碩士論文。[3]周明發,2015,「塗料檢驗方法一二三」,塗料與塗裝技術第 67、68 期。
[4]趙麥群,雷阿麗,2013,金屬的腐蝕與防護,國防工業出版社,中國。
[5]黃翔等,2008,海洋工程材料學,科學出版社,中國。
[6]黃宗國、蔡如星,1984,海洋污損生物及其防除。海洋出版社。北京
[7] Hellion C., 2001 “inhibition of marine bacteria of macroalgae: potential use of environmentally friendly antifouling paints.” Marine Environmental Research, pp. 231-247.
[8]劉學英,1991,”海洋塗料的現狀及開展前景”,化工新型塗料,pp. 8-11
[9] Michael A., 2000, “A review of organ tin regulatory strategies, pending actions, related costs and nenefits.”, The Science of the Total Enviroment, pp. 21-71.
[10]周陳亮,2000,”艦船塗料發展趨勢分析”,中國塗料,pp. 5-8
[11]陸青田,1998,”養殖塗料的發展動向”,塗料技術,pp. 9-12
[12]季崇洲,1998,”國外船舶防汙塗料”,國外船舶塗料報導,pp. 12
[13]浦保康,2000,”IMO與船底防汙”,交通環保,pp. 42-43
[14]余育聰,2001,”控制和禁用船舶有害防汙漆”,江蘇船舶,pp. 42-43
[15]Cologer CP.,1992, “Naval Engineers Journal”, pp.7
[16]Camall M. et al.,1998 “ New acrylic titanium polymers:2. Synthesis and characterixation of organ titanium polymers” Polymer. pp. 6533-6539.
[17]曾德芳,1996,”海洋汙損生物與船體防汙塗料”,交通環保,pp. 37-39
[18]Chua Y.K. et al., 1997 “ Occurrence of origination compounds in Canadian aquatic environment five years after the regulation of antifouling uses of tributyltin.”, Water Quall Res J Canada, pp.453-521.
[19]邊蘊靜,2000,”低表面能防汙塗料的最新發展”,化工新型材料,pp. 42-46.
[20]Renys F. Brady.,2000 “Jr Journal of protective coating and linings.”, pp.42-46
[21]Clive H Hare.,2000 “Oumal of protective coating and linings.” pp.50-65.
[22]http://baike.baidu.com/view/293115.htm
[23]L.L.Shreir,1976,Corrosion,2nd ed.,Vol II,Newnes-Butterworths,London.
[24]L. D. Chambers,et al.,2006,“Modernapproaches to marineantifouling coatings”,Surf.Coat. Technol.,vol. 201,pp.3642-3652.
[25]王華進等,2000,”海洋防汙塗料的發展”,塗料工業,3 卷,頁35-38。
[26]Hsueh, C.H.,2000 “Modeling of Contact-induced Radial Cracking in Ceramic Bi-layer Coatings on Compliant Substrates,” Journal of Materials Research, Vol. 18, No.5, pp1275-1283.
[27]Roes, G., R. Oltra and M.H. Nadal,2002 “Evaluation of the Coating-substrate Adhesion by Laser-ultrasonics: Modeling and Experiments,” Journal of Applied Physics, Vol. 91, No. 10, pp. 6744-6753.
[28]Kim, S.R. and J.A. Nairn,2000 “Fracture Mechanics Analysis of Coating/substrate Systems Part I: Analysis of Tensile and Bending Experiments,” Engineering Fracture Mechanics, pp. 1-24.
[29]賴泳次,2002,「考慮不同材質與交互作用力之奈米滑動模潤性質的分子靜力學」,國立中正大學機械系,碩士論文,共104 頁。
[30]Mensah, A. Y. P. J. Houghton, S. Bloomfield, A. Vlietinck and B. D. Vanden., 2000 “ Known and novel terpenes from Buddleja globosadisplaying selective antifungal activity against dermatophytes.” J. Nat. Prod., pp.1210-1213.
[31]Seddon,K. R. 1997,“Ionic Liquids for Clean Technology”,J. Chem. Tech. Biotechnol,vol. 68,pp. 351-356,August.
[32]Wasserschied,P.,Welton,T.,2008,Ionic Liquids in Synthesis; 2nd Ed,Wiley-VCH: Weinheim.
[33]P. Walden,1914,“Molecular weights and electrical conductivity of several fused salts”,Bull. Russian Acad. Sci.,pp. 405–422.
[34]Hurley,F. H.; Weir,T. P.,1951,“Electrodeposition of Metals from Fused Quaternary Ammonium Salts”,J. Electrochem. Soc.,vol. 98,pp. 203-206.
[35]H.L. Chum.,et al,1975,“Electrochemical scrutiny of organometallic iron complexes and hexamethylbenzene in a room temperature molten salt”,J. AM. Chem. Soc.,vol. 97,pp. 3264.
[36]Scheffler,T. B.,et al,1983,“Molybdenum Chloro Complexes in Room-Temperature Chloroaluminate Ionic Liquids: Stabilization of Hexachloromolybdate(2-) and Hexachloromolybdate(3-)”,Inorg. Chem.,vol. 22,pp. 2099-2100
[37]J.A. Boon,et al.,1986,“Friedel-Crafts Reactions in Ambient-Temperature Molten Salts”,J.Org. Chem.,vol. 51,pp. 480.
[38]Pernak,J. et al.,2001,“New ionic liquids and their antielectrostatic
Properties”,Ind. Eng. Chem. Res.,vol. 11,pp. 2379–2383.
[39]Holbrey,J. D.; Seddon,K. R.,1999,“The phase behavior of 1-alky;-3-methylimidazolium tetrafluoroborates; ionic liquids and ionic liquid crystals”,J. Chem. Soc. Dalton Trans.,vol. 13,pp.2133-2140.
[40]Gordon,C. M.,et al,1998,“Ionic liquid crystals: hexafluorophosphate salts”,J. Mater. Chem.,vol. 8,pp. 2627-2636.
[41]Wasserscheid,P.; Keim,W.,2000,“Ionic Liquids-New "Solutions" for Transition Metal Catalysis”,Angew. Chem. Int. Ed.,vol. 39,pp.3772-3789,November.
[42]Anderson JL,et al,2007,“Solubility of CO2,CH4,C2H6,C2H4,O2,and N2 in 1-hexyl-3-methylpyridinium bis(trifluoromethylsulfonyl)imide: comparison to other ionic liquids”,Acc Chem Res. Vol. 40,pp. 1208-16 November.
[43]Erbeldinger M,et al,2000,“Enzymatic catalysis of formation of Z-aspartame in ionic liquid - An alternative to enzymatic catalysis in organic solvents”,Biotechnol Prog.,vol. 16,pp. 1129-31,November.
[44]Yanes,E. G.,et al,2001,“Capillary electrophoretic application of 1-alkyl-3-methylimidazolium-based ionic liquids”,Anal. Chem.,vol. 73,pp. 3838-44.
[45]Visser,A. E.et al,2002," Task-specific ionic liquids incorporating novel cations for the coordination and extraction of Hg2+ and Cd2+: synthesis,characterization,and extraction studies”,Environ Sci Technol.,Vol. 36,pp. 2523-9,Jun.
[46]Armstrong,D. W. et al,1999,“Examination of ionic liquids and their interaction with molecules,when used as stationary phases in gas chromatography”,Anal. Chem.,vol. 71,pp. 3873-6 September.
[47]Wei,G. T.,2004,“Aqueous-organic phase transfer of gold nanoparticles and gold nanorods using an ionic liquid.” J. Am. Chem. Soc.,vol,126,pp. 5036-7,April.
[48]Andrew P. Abbott,2013,“Electroplating Using Ionic Liquids”,Annu Rev Mater Res.,vol. 43,pp. 335-358,July.
[49]Abbott AP,et al,2008,“Electrodeposition of metals using eutectic based ionic liquids”,Trans. Inst. Met. Finish.,vol. 86,pp.196-204.
[50]Abbott AP,et al,2010,“Double layer,diluent and anode effects upon the electrodeposition of aluminium from chloroaluminate based ionic liquids”,Phys. Chem. Chem. Phys.,vol. 12,pp.1862–72.
[51]Matthijs E,et al,2009,“The use of ionic liquids based on choline chloride for metal deposition: a green alternative?”,J. Environ. Manag.,vol. 90,pp. 3245-52.
[52]J. A. Boon,et al,1986,“ Friedel-Crafts reactions in ambient-temperature molten salts”,J. Org. Chem.,vol. 51,pp. 480–483.
[53]D. J. Jaeger,and C. E. Tucker,1989,“Diels-Alder reactions in ethylammonium · nitrate,a low-melting fused salt”,Tetrahedron Letters,vol. 30,pp. 1785-88.
[54]Wei,G.T.;Chen,J.C.;Yang,Z.,2003,“Studies on liquid/liquid extraction of copper ion with room-temperature ionic liquid”,J. Chinese Chem. Soc.,vol. 50,pp. 1123-1130.
[55]Talegaonkar S,et al,2008,“Microemulsions: a novel approach to enhanced drug delivery.” Recent Pat Drug Deliv Formul.,vol3,pp.238-57.
[56]周陳亮,1998,”艦船防汙塗料的歷史、現狀及未來”,中國塗料,第6期
pp.9-12,北京。
[57]譚仁祥、王劍文、徐琛、崔桂友,2003,植物成分功能,科學出版社,北京。
[58]M. A. Malik, et al., 2012, “Microemulsion method: A novel route to synthesize organic and inorganic nanomaterials : 1st Nano Update”, Arabian Journal of Chemistry, vol5, p397-417
[59]羅建明、陳桂清、柯正龍,“金屬材料腐蝕環境調查研究(1/2) ”,交通部運輸研究所,計畫編號:105-056-7888-MOTC-IOT-104-H1DA002a,2006年。
[60]Principles and Prevention of Corrosion, Denny A. Jones, Prentice-Hall, Upper Saddle River, NJ 07458 (1996).
[61]“電化學”,熊楚強、王月著,文京圖書有限公司,1995年。
[62]Herbert H. Uhlig., “Corrosion and Corrosion Control”, 4th, Wikey, New York, 1971.
[63]“腐蝕及其防制”,柯賢文,全華科技圖書有限公司,2014年。
[64]ASTM Designation G53-96, “Standard Practice for Operating Light- and Water-Exposure Apparatus (Fluorescent UV-Condensation Type) for Exposure of Nonmetallic Materials,” American Society for Testing of Materials, Annual Book of ASTM Standards, Vol. 06.01.
[65]劉學英,1991,”海洋塗料的現狀及開展前景”,化工新型塗料,pp. 8-11
[66]CAO C N,2008, Electrochemical principles of corrosion (3th edition) Corrosion Science and Protection Technology, p165-165.