荧光光谱技术及其在木材工业领域的应用
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摘要
荧光光谱技术是近年来发展起来的新型分析检测技术,具有灵敏度高、检测限低、操作简单、分析时间短、无污染及成本低等优点。从荧光光谱原理入手,介绍了常规荧光光谱、同步荧光、三维荧光、时间分辨荧光等荧光光谱技术,概述了荧光光谱技术在木材工业领域中的应用,展望了该技术的发展前景。
Fluorescence spectroscopy technology is a new analytical technique developed in recent years,featuring high sensitivity,low detection limit,simple operation,short analysis time,no pollution,low cost and so on. Starting from the basic principle of fluorescence spectroscopy,conventional fluorescence spectroscopy,synchronous,three-dimensional,time- resolved and other fluorescence spectroscopy technique are introduced,the application of the fluorescence spectroscopy technology in the wood industry summed up,the development prospects of this technology presented.
Fluorescence spectroscopy technology is a new analytical technique developed in recent years,featuring high sensitivity,low detection limit,simple operation,short analysis time,no pollution,low cost and so on. Starting from the basic principle of fluorescence spectroscopy,conventional fluorescence spectroscopy,synchronous,three-dimensional,time- resolved and other fluorescence spectroscopy technique are introduced,the application of the fluorescence spectroscopy technology in the wood industry summed up,the development prospects of this technology presented.
引文
[1]许金钩.荧光分析法[M].北京:科学出版社,2006.
[2]刘爱平.细胞生物学荧光技术原理和应用[M].合肥:中国科学技术大学出版社,2012.
[3]Acu A A U,Amat-Guerri F.Early History of Solution Fluorescence:The,Lignum nephriticum,of Nicolás Monardes[M]//Fluorescence of Supermolecules,Polymers,and Nanosystems.2007:3-20.
[4]戴惠娟.荧光显微术[J].南昌大学学报:理科版,1979(1).
[5]孙艳辉,吴霖生,张汆,等.分子荧光光谱技术在食品安全中的应用[J].食品工业科技,2011(5):436-439.
[6]陈芳.分子荧光光谱法在煤化工与石油化工方面的应用[J].山西煤炭管理干部学院学报,2008,21(2):162-163.
[7]陈国庆.荧光光谱技术在食品安全监控中的应用研究[D].无锡:江南大学,2010.
[8]Lloyd J B F.Synchronized Excitation of Fluorescence Emission Spectra[J].Nature,1971,231(20):64-65.
[9]Dinh T V.Multicomponent analysis by synchronous luminescence spectrometry[J].Analytical Chemistry,1978,50(3):396.
[10]何立芳,林丹丽,李耀群.同步荧光分析法的应用及其新进展[J].化学进展,2004,16(6):879.
[11]Patra D,Mishra A K.Recent developments in multi-component synchronous fluorescence scan analysis[J].Trac Trends in Analytical Chemistry,2002,21(12):787.
[12]Mozo-VillaríAs A.Second derivative fluorescence spectroscopy of tryptophan in proteins[J].Journal of Biochemical&Biophysical Methods,2002,50(2-3):163-178.
[13]KeizōHiraki,Kiyotoshi Morishige,Yasuharu Nishikawa.Simultaneous determinations of metal 5-sulfo-8-quinolinolates by differences in their fluorescence lifetimes[J].Analytica Chimica Acta,1978,97(1):121.
[14]王志麟,谈富星,郑成法.激光荧光法测定超微量铀的研究—Ⅱ.磷酸及磷酸盐体系中铀的测定[J].核化学与放射化学,1983,5(1):31-31.
[15]Bright F V,Mcgown L B,Chem.A.Three-component determinations using fluorescence anisotropy measurements and wavelength selectivity[J].Analytical Chemistry,1986,58(7):1225.
[16]董灵英.时间分辨激光荧光光谱分析[J].岩矿测试,1992(z1):58-62.
[17]郭惠萍,张美云,刘亚恒.荧光增白剂的毒性分析[J].湖南造纸,2007(4):43-45.
[18]刘峻,徐振华,闫辉,等.纸张中荧光物质检测方法的对比[J].中国造纸,2011,30(4):18-21.
[19]罗冠中,刘祥,汪晓冬,等.荧光分光光度法测定生活用纸制品中的荧光增白剂[J].中国测试,2009,35(4):68-71.
[20]喻坤,韩熠,张承明,等.荧光增白剂分析方法研究进展[J].化学试剂,2013,35(5).
[21]左国防.荧光分光光度法测定人造板中游离甲醛的含量[J].生物质化学工程,2003,37(6):35-37.
[22]林巧佳,童玲,林金春.大豆基木材胶粘剂改性研究的进展[J].亚热带农业研究,2007,3(4):284-289.
[23]Kalapathy U,Hettiarachchy N S,Rhee K C.Effect of drying methods on molecular properties and functionalities of disulfide bondcleaved soy proteins[J].Journal of Oil&Fat Industries,1997,74(3):195-199.
[24]Avella T,Dechamps R,Bastin M.Fluorescence Study of 10 610Woody Species from the Tervuren(Tw)Collection,Belgium[J].Iawa Journal,1988,9(4):346-352.
[25]Dyer S T.Wood Fluorescence of Indigenous South African Trees[J].Iawa Journal,1988,9(1):75-87.
[26]Anagnost S E,Meyer R W,Zeeuw C D.Confirmation and Significance of Bartholin's Method for the Identification of the Wood of Picea and Larix[J].Iawa Journal,1994,15(2):171-184.
[27]Guzm J A S,Richter H G,Anda R R,et al.Wood fluorescence of commercial timbers marketed in Mexico[J].Iawa Journal,2008,29(3):311-322.
[28]Pandey K K,Upreti N K,Srinivasan V V.A fluorescence spectroscopic study on wood[J].Wood Science&Technology,1998,32(4):309-315.
[29]陈志刚,高农.激光诱导荧光光谱在木材检测中的应用[J].交通科技与经济,2007,9(5):64-65.
[30]周欣欣,石永生,张海鹏,等.关于常见树皮浸提物的荧光光谱分析[J].辽宁警专学报,2011(4):74-77.
[2]刘爱平.细胞生物学荧光技术原理和应用[M].合肥:中国科学技术大学出版社,2012.
[3]Acu A A U,Amat-Guerri F.Early History of Solution Fluorescence:The,Lignum nephriticum,of Nicolás Monardes[M]//Fluorescence of Supermolecules,Polymers,and Nanosystems.2007:3-20.
[4]戴惠娟.荧光显微术[J].南昌大学学报:理科版,1979(1).
[5]孙艳辉,吴霖生,张汆,等.分子荧光光谱技术在食品安全中的应用[J].食品工业科技,2011(5):436-439.
[6]陈芳.分子荧光光谱法在煤化工与石油化工方面的应用[J].山西煤炭管理干部学院学报,2008,21(2):162-163.
[7]陈国庆.荧光光谱技术在食品安全监控中的应用研究[D].无锡:江南大学,2010.
[8]Lloyd J B F.Synchronized Excitation of Fluorescence Emission Spectra[J].Nature,1971,231(20):64-65.
[9]Dinh T V.Multicomponent analysis by synchronous luminescence spectrometry[J].Analytical Chemistry,1978,50(3):396.
[10]何立芳,林丹丽,李耀群.同步荧光分析法的应用及其新进展[J].化学进展,2004,16(6):879.
[11]Patra D,Mishra A K.Recent developments in multi-component synchronous fluorescence scan analysis[J].Trac Trends in Analytical Chemistry,2002,21(12):787.
[12]Mozo-VillaríAs A.Second derivative fluorescence spectroscopy of tryptophan in proteins[J].Journal of Biochemical&Biophysical Methods,2002,50(2-3):163-178.
[13]KeizōHiraki,Kiyotoshi Morishige,Yasuharu Nishikawa.Simultaneous determinations of metal 5-sulfo-8-quinolinolates by differences in their fluorescence lifetimes[J].Analytica Chimica Acta,1978,97(1):121.
[14]王志麟,谈富星,郑成法.激光荧光法测定超微量铀的研究—Ⅱ.磷酸及磷酸盐体系中铀的测定[J].核化学与放射化学,1983,5(1):31-31.
[15]Bright F V,Mcgown L B,Chem.A.Three-component determinations using fluorescence anisotropy measurements and wavelength selectivity[J].Analytical Chemistry,1986,58(7):1225.
[16]董灵英.时间分辨激光荧光光谱分析[J].岩矿测试,1992(z1):58-62.
[17]郭惠萍,张美云,刘亚恒.荧光增白剂的毒性分析[J].湖南造纸,2007(4):43-45.
[18]刘峻,徐振华,闫辉,等.纸张中荧光物质检测方法的对比[J].中国造纸,2011,30(4):18-21.
[19]罗冠中,刘祥,汪晓冬,等.荧光分光光度法测定生活用纸制品中的荧光增白剂[J].中国测试,2009,35(4):68-71.
[20]喻坤,韩熠,张承明,等.荧光增白剂分析方法研究进展[J].化学试剂,2013,35(5).
[21]左国防.荧光分光光度法测定人造板中游离甲醛的含量[J].生物质化学工程,2003,37(6):35-37.
[22]林巧佳,童玲,林金春.大豆基木材胶粘剂改性研究的进展[J].亚热带农业研究,2007,3(4):284-289.
[23]Kalapathy U,Hettiarachchy N S,Rhee K C.Effect of drying methods on molecular properties and functionalities of disulfide bondcleaved soy proteins[J].Journal of Oil&Fat Industries,1997,74(3):195-199.
[24]Avella T,Dechamps R,Bastin M.Fluorescence Study of 10 610Woody Species from the Tervuren(Tw)Collection,Belgium[J].Iawa Journal,1988,9(4):346-352.
[25]Dyer S T.Wood Fluorescence of Indigenous South African Trees[J].Iawa Journal,1988,9(1):75-87.
[26]Anagnost S E,Meyer R W,Zeeuw C D.Confirmation and Significance of Bartholin's Method for the Identification of the Wood of Picea and Larix[J].Iawa Journal,1994,15(2):171-184.
[27]Guzm J A S,Richter H G,Anda R R,et al.Wood fluorescence of commercial timbers marketed in Mexico[J].Iawa Journal,2008,29(3):311-322.
[28]Pandey K K,Upreti N K,Srinivasan V V.A fluorescence spectroscopic study on wood[J].Wood Science&Technology,1998,32(4):309-315.
[29]陈志刚,高农.激光诱导荧光光谱在木材检测中的应用[J].交通科技与经济,2007,9(5):64-65.
[30]周欣欣,石永生,张海鹏,等.关于常见树皮浸提物的荧光光谱分析[J].辽宁警专学报,2011(4):74-77.