生漆改性及其应用进展
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摘要
综述了生漆改性的几种途径及改性生漆在高性能防腐涂料、催化剂、吸附材料及传感器等应用方面的国内外研究进展,为生漆的高值化利用提供了参考。
Several modification ways of raw lacquer and the application progress at home and abroad in the field of coatings, catalysts,adsorption materials and chemical sensors were summarized,with the aim of offering reference for the effective use of raw lacquer.
Several modification ways of raw lacquer and the application progress at home and abroad in the field of coatings, catalysts,adsorption materials and chemical sensors were summarized,with the aim of offering reference for the effective use of raw lacquer.
引文
[1]XIA J R,LIN J H,XIU Y L.On the UV-induced polymeric behavior of Chinese lacquer[J].ACS Applied Materials&Interfaces,2011,3(2):482-489.
[2]LU R,KAMIYA Y,KUMAMOTO T,et al.Deterioration of surface structure of lacquer films due to ultraviolet irradiation[J].Surface and Interface Analysis,2006,38(9):1311-1315.
[3]甘景镐.生漆的化学[M].北京:科学出版社,1984.
[4]KUMANOTANI J.Enzyme catalyzed durable and authentic oriental lacquer:A natural microgel-printable coating bypolysaccharide-glycoproteinphenolic lipid complexes[J].Progress in Organic Coatings,1997,34(1-4):135-146.
[5]MIYAKOSHI T,NAGASE K,YOSHIDA T.Progress of Lacquer Chemistry[M].Tokyo:IPC Publishing,2000.
[6]VOGL O.Oriental lacquer,poison ivy and drying oils[J].Polymer Science:Polymer Chemistry,2000,38(24):4327-4335.
[7]陈钦慧,林金火.苯胺改性漆酚甲醛缩聚物的研究[J].林产化学与工业,2002,22(4):63-65.
[8]陈钦慧,林金火.漆酚甲醛缩聚物/醇酸树脂IPN的研究[J].中国生漆,2001,20(2):1-4.
[9]刘建桂,陈钦慧,徐艳莲,等.漆酚铁聚合物-醇酸树脂互穿聚合物网络涂料的研究[J].林产化学与工业,2005,25(2):91-94.
[10]林金火,徐艳莲,陈钦慧,等.漆酚醛缩聚物/丙烯酸树脂IPN涂料的制备及性能[J].应用化学,2005,22(3):254-256.
[11]夏建荣,徐艳莲,林金火.漆酚基环氧丙烯酸酯的合成[J].合成化学,2007,15(6):685-688.
[12]刘娅莉.环氧改性漆酚糠醛树脂[J].涂料工业,1995,25(3):1-4.
[13]徐景文,林金火,刘灿培.生漆与二异氰酸酯的反应及漆膜性能[J].化学研究与应用,2005,17(6):832-834.
[14]LU R,WAN R R,HONDA T.Design and characterization of modified urethane lacquer coating[J].Progress in Organic Coatings,2006,57(3):215-222.
[15]KIM H S,YEUM J H,CHOI S W,et al.Urushiol/polyurethane-urea dispersions and their film properties[J].Progress in Organic Coatings,2009,65(3):341-347.
[16]廉鹏.生漆的化学组成及成膜机理[J].陕西师范大学学报:自然科学版,2004,32(6):99-102.
[17]陈钦慧,郑燕玉,林萍萍,等.漆酚甲醛缩聚物水基分散体系的相反转乳化[J].高分子材料科学与工程,2006,22(6):63-66.
[18]潘志斌,徐艳莲,胡炳环.水性黑推光漆的制备与性能研究[J].中国生漆,2009,28(2):1-5.
[19]刘灿培,林金火,郑燕玉,等.微乳化生漆及其FeCl3螯合聚合物的制备与表征[J].福建师范大学学报:自然科学版,2007,23(4):74-79.
[20]彭顺金,张贵军,方华.反应性乳化剂及其乳液聚合[J].胶体与聚合物,1999,17(2):36-39.
[21]GUYOT A.Advances in reactive surfactants[J].Advance in Colloid and Interface Science,2004,108:3-22.
[22]郑燕玉,胡炳环,林金火.水基化生漆的膜性能研究[J].泉州师范学院学报:自然科学版,2008,26(2):58-61.
[23]SUZUKI T,ITO Y,BOURY B,et al.Surface modification of titania particles with urushiol(Japanese lacquer)and its application to the preparation of polymer-titania hybrids[J].Chemistry Letters,2007,36(7):856-857.
[24]林金火.漆酚金属配合物的研究概况[J].中国生漆,1992,11(3):23-25.
[25]HU B H,CHEN R,LIN J H,et al.Study on thermal decomposition kinetics of urushiol metal chelate polymers[J].Chinese Journal of Polymer Science,1994,12(4):258-265.
[26]HONDA T,LU R,MIYAKOSHI T.Chrome-free corrosion protective coating based on lacquer hybridized with silicate[J].Progress in Organic Coatings,2006,56(4):279-284.
[27]TAKAHISA I,LU R,TETSUO M.Studies on the reaction mechanism between urushiol and organic silane[J].Progress in Organic Coatings,2006,55(1):66-69.
[28]林金火,陈文定.漆酚硼衍生物的研究(II).丁氧基硼酸氢化漆酚脂的合成及结构表征[J].中国生漆,1995,14(2):l-4.
[29]LU R,ONO M,SUZUKI S,et al.Studies on a newly designed natural lacquer[J].Materials Chemistry and Physics,2006,100(1):158-161.
[30]姜炜,黄鑫.漆酚硅涂料耐高温油介质性能研究[J].中国生漆,1997,16(1):20-22.
[31]姜炜,黄鑫.有机硅改性漆酚树脂涂料耐沸水性能的研究[J].涂料工业,1998,28(4):41-42.
[32]林金火,胡炳环.生漆/无机纳米杂化材料[J].中国生漆,2001,20(2):29-30.
[33]阳露波.金红石纳米TiO2在涂料中的应用研究[J].钢铁钒钛,2003,24(2):52-56.
[34]林金火,刘建桂.漆酚醛缩聚物/丙烯酸树脂/TiO2复合涂料的制备及性能[J].高分子材料科学程,2008,24(2):71-74.
[35]陈博,杜予民,杨建红,等.漆酚缩醛环氧清漆纳米/TiO2新型复合涂料的制备及性能[J].武汉大学学报:理学版,2005,51(4):439-442.
[36]徐艳莲,胡炳环,林金火,等.漆酚钛聚合物/蒙脱土纳米复合材料的制备、结构与性能[J].高分子学报,2005(6):825-828.
[37]HU B H,CHEN W D,LIN J H.The synthesis of urushiol titanium chelate polymers and their structural characteristics[J].Chinese Journal of Polymer Science,1993,11(3):198-203.
[38]胡炳环,陈文定.新型漆酚钛螯合高聚物防腐蚀涂料中试研究[J].林产化学与工业,1998,l8(1):17-22.
[39]杨珠,邓丰,林金火,等.漆酚缩醛胺/环氧树脂水性涂料的涂膜性能研究[J].中国生漆,2006,25(2):1-5.
[40]梁永纯,杜春苹,王伟,等.导电涂料研究现状及其应用[J].广东电力,2012,25(3):1-4.
[41]刘永志,夏建荣,林金火.紫外光固化法制备漆酚/石墨复合导电涂料的研究[J].中国生漆,2010,29(2):13-15.
[42]石玉,张飞龙,魏朔南,等.漆酚导静电防腐涂料的研究[J].西安工业学院学报,1999,19(2):1-6.
[43]徐艳莲,林金火,胡炳环.炭黑-漆酚醛树脂导电涂料的研究[J].中国生漆,2002,21(2):1-4.
[44]林金火,胡炳环.漆酚金属聚合物催化脂化的性能[J].中国生漆,1997,16(4):10-11.
[45]肖雪清,陈钦慧,林金火.漆酚镨聚合物对酯化反应的催化作用[J].稀土,2004,25(2):26-28.
[46]徐艳莲,林金火.漆酚缩甲醛镧配合物的制备、结构及性能[J].功能高分子学报,2004,17(2):229-234.
[47]史伯安,雷福厚,王联芝.漆酚金属盐聚合物催化合成缩酮[J].林产化学与工业,1999,19(3):41-45.
[48]成昌梅,杨颂惠,石正金,等.冠醚化合物的合成(ⅩⅢ):饱和漆酚冠醚的合成及其PVC膜铊离子选择电极的研究[J].武汉大学学报:自然科学版,1989(4):101-105.
[49]陈钦慧,林金火.漆酚镨高聚物吸附有害气体的性能研究[J].离子交换与吸附,2005,21(2):184-188.
[50]杨珠,张志华,邓丰,等.漆酚醛树脂多孔微球对有机物的吸附性能[J].离子交换与吸附,2007,23(1):77-81.
[51]史伯安.漆酚-喔星功能聚合物的合成及特性研究[J].功能材料,2005,36(5):277-279.
[52]史伯安,王宁.漆酚-水杨酸树脂对Hg2+的吸附性能[J].化学生物与工程,2006,25(3):49-51.
[53]涂志英,李于善.全固态漆酚树脂儿茶酚化学传感器[J].三峡大学学报:自然科学版,2001,23(4):377-380.
[54]李于善.测定柠檬黄的电位型漆酚树脂化学传感器研究[J].化学世界,2000,41(6):317-320.
[55]李于善.测定烟酸类药物的全固态漆酚树脂传感器研究[J].化学世界,2001,42(9):461-463.
[56]杨春海,史伯安.新型漆酚铁树脂修饰的固体传感器的制备及应用[J].林产化学与工业,2003,23(3):41-44.
[2]LU R,KAMIYA Y,KUMAMOTO T,et al.Deterioration of surface structure of lacquer films due to ultraviolet irradiation[J].Surface and Interface Analysis,2006,38(9):1311-1315.
[3]甘景镐.生漆的化学[M].北京:科学出版社,1984.
[4]KUMANOTANI J.Enzyme catalyzed durable and authentic oriental lacquer:A natural microgel-printable coating bypolysaccharide-glycoproteinphenolic lipid complexes[J].Progress in Organic Coatings,1997,34(1-4):135-146.
[5]MIYAKOSHI T,NAGASE K,YOSHIDA T.Progress of Lacquer Chemistry[M].Tokyo:IPC Publishing,2000.
[6]VOGL O.Oriental lacquer,poison ivy and drying oils[J].Polymer Science:Polymer Chemistry,2000,38(24):4327-4335.
[7]陈钦慧,林金火.苯胺改性漆酚甲醛缩聚物的研究[J].林产化学与工业,2002,22(4):63-65.
[8]陈钦慧,林金火.漆酚甲醛缩聚物/醇酸树脂IPN的研究[J].中国生漆,2001,20(2):1-4.
[9]刘建桂,陈钦慧,徐艳莲,等.漆酚铁聚合物-醇酸树脂互穿聚合物网络涂料的研究[J].林产化学与工业,2005,25(2):91-94.
[10]林金火,徐艳莲,陈钦慧,等.漆酚醛缩聚物/丙烯酸树脂IPN涂料的制备及性能[J].应用化学,2005,22(3):254-256.
[11]夏建荣,徐艳莲,林金火.漆酚基环氧丙烯酸酯的合成[J].合成化学,2007,15(6):685-688.
[12]刘娅莉.环氧改性漆酚糠醛树脂[J].涂料工业,1995,25(3):1-4.
[13]徐景文,林金火,刘灿培.生漆与二异氰酸酯的反应及漆膜性能[J].化学研究与应用,2005,17(6):832-834.
[14]LU R,WAN R R,HONDA T.Design and characterization of modified urethane lacquer coating[J].Progress in Organic Coatings,2006,57(3):215-222.
[15]KIM H S,YEUM J H,CHOI S W,et al.Urushiol/polyurethane-urea dispersions and their film properties[J].Progress in Organic Coatings,2009,65(3):341-347.
[16]廉鹏.生漆的化学组成及成膜机理[J].陕西师范大学学报:自然科学版,2004,32(6):99-102.
[17]陈钦慧,郑燕玉,林萍萍,等.漆酚甲醛缩聚物水基分散体系的相反转乳化[J].高分子材料科学与工程,2006,22(6):63-66.
[18]潘志斌,徐艳莲,胡炳环.水性黑推光漆的制备与性能研究[J].中国生漆,2009,28(2):1-5.
[19]刘灿培,林金火,郑燕玉,等.微乳化生漆及其FeCl3螯合聚合物的制备与表征[J].福建师范大学学报:自然科学版,2007,23(4):74-79.
[20]彭顺金,张贵军,方华.反应性乳化剂及其乳液聚合[J].胶体与聚合物,1999,17(2):36-39.
[21]GUYOT A.Advances in reactive surfactants[J].Advance in Colloid and Interface Science,2004,108:3-22.
[22]郑燕玉,胡炳环,林金火.水基化生漆的膜性能研究[J].泉州师范学院学报:自然科学版,2008,26(2):58-61.
[23]SUZUKI T,ITO Y,BOURY B,et al.Surface modification of titania particles with urushiol(Japanese lacquer)and its application to the preparation of polymer-titania hybrids[J].Chemistry Letters,2007,36(7):856-857.
[24]林金火.漆酚金属配合物的研究概况[J].中国生漆,1992,11(3):23-25.
[25]HU B H,CHEN R,LIN J H,et al.Study on thermal decomposition kinetics of urushiol metal chelate polymers[J].Chinese Journal of Polymer Science,1994,12(4):258-265.
[26]HONDA T,LU R,MIYAKOSHI T.Chrome-free corrosion protective coating based on lacquer hybridized with silicate[J].Progress in Organic Coatings,2006,56(4):279-284.
[27]TAKAHISA I,LU R,TETSUO M.Studies on the reaction mechanism between urushiol and organic silane[J].Progress in Organic Coatings,2006,55(1):66-69.
[28]林金火,陈文定.漆酚硼衍生物的研究(II).丁氧基硼酸氢化漆酚脂的合成及结构表征[J].中国生漆,1995,14(2):l-4.
[29]LU R,ONO M,SUZUKI S,et al.Studies on a newly designed natural lacquer[J].Materials Chemistry and Physics,2006,100(1):158-161.
[30]姜炜,黄鑫.漆酚硅涂料耐高温油介质性能研究[J].中国生漆,1997,16(1):20-22.
[31]姜炜,黄鑫.有机硅改性漆酚树脂涂料耐沸水性能的研究[J].涂料工业,1998,28(4):41-42.
[32]林金火,胡炳环.生漆/无机纳米杂化材料[J].中国生漆,2001,20(2):29-30.
[33]阳露波.金红石纳米TiO2在涂料中的应用研究[J].钢铁钒钛,2003,24(2):52-56.
[34]林金火,刘建桂.漆酚醛缩聚物/丙烯酸树脂/TiO2复合涂料的制备及性能[J].高分子材料科学程,2008,24(2):71-74.
[35]陈博,杜予民,杨建红,等.漆酚缩醛环氧清漆纳米/TiO2新型复合涂料的制备及性能[J].武汉大学学报:理学版,2005,51(4):439-442.
[36]徐艳莲,胡炳环,林金火,等.漆酚钛聚合物/蒙脱土纳米复合材料的制备、结构与性能[J].高分子学报,2005(6):825-828.
[37]HU B H,CHEN W D,LIN J H.The synthesis of urushiol titanium chelate polymers and their structural characteristics[J].Chinese Journal of Polymer Science,1993,11(3):198-203.
[38]胡炳环,陈文定.新型漆酚钛螯合高聚物防腐蚀涂料中试研究[J].林产化学与工业,1998,l8(1):17-22.
[39]杨珠,邓丰,林金火,等.漆酚缩醛胺/环氧树脂水性涂料的涂膜性能研究[J].中国生漆,2006,25(2):1-5.
[40]梁永纯,杜春苹,王伟,等.导电涂料研究现状及其应用[J].广东电力,2012,25(3):1-4.
[41]刘永志,夏建荣,林金火.紫外光固化法制备漆酚/石墨复合导电涂料的研究[J].中国生漆,2010,29(2):13-15.
[42]石玉,张飞龙,魏朔南,等.漆酚导静电防腐涂料的研究[J].西安工业学院学报,1999,19(2):1-6.
[43]徐艳莲,林金火,胡炳环.炭黑-漆酚醛树脂导电涂料的研究[J].中国生漆,2002,21(2):1-4.
[44]林金火,胡炳环.漆酚金属聚合物催化脂化的性能[J].中国生漆,1997,16(4):10-11.
[45]肖雪清,陈钦慧,林金火.漆酚镨聚合物对酯化反应的催化作用[J].稀土,2004,25(2):26-28.
[46]徐艳莲,林金火.漆酚缩甲醛镧配合物的制备、结构及性能[J].功能高分子学报,2004,17(2):229-234.
[47]史伯安,雷福厚,王联芝.漆酚金属盐聚合物催化合成缩酮[J].林产化学与工业,1999,19(3):41-45.
[48]成昌梅,杨颂惠,石正金,等.冠醚化合物的合成(ⅩⅢ):饱和漆酚冠醚的合成及其PVC膜铊离子选择电极的研究[J].武汉大学学报:自然科学版,1989(4):101-105.
[49]陈钦慧,林金火.漆酚镨高聚物吸附有害气体的性能研究[J].离子交换与吸附,2005,21(2):184-188.
[50]杨珠,张志华,邓丰,等.漆酚醛树脂多孔微球对有机物的吸附性能[J].离子交换与吸附,2007,23(1):77-81.
[51]史伯安.漆酚-喔星功能聚合物的合成及特性研究[J].功能材料,2005,36(5):277-279.
[52]史伯安,王宁.漆酚-水杨酸树脂对Hg2+的吸附性能[J].化学生物与工程,2006,25(3):49-51.
[53]涂志英,李于善.全固态漆酚树脂儿茶酚化学传感器[J].三峡大学学报:自然科学版,2001,23(4):377-380.
[54]李于善.测定柠檬黄的电位型漆酚树脂化学传感器研究[J].化学世界,2000,41(6):317-320.
[55]李于善.测定烟酸类药物的全固态漆酚树脂传感器研究[J].化学世界,2001,42(9):461-463.
[56]杨春海,史伯安.新型漆酚铁树脂修饰的固体传感器的制备及应用[J].林产化学与工业,2003,23(3):41-44.