介孔涂层毛细管电泳技术及应用研究
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摘要
论述了毛细管电泳法的优点及在分离等众多领域的应用前景。阐述了毛细管电泳技术的分离模式、分离原理、联用技术及涂层技术。着重介绍了毛细管电泳介孔材料涂层技术的原理及应用,如涂层技术在毛细管电泳法分析过程中的研究及发展,在药物拆分、环境监测、临床检测等领域应用等。
The advantages of capillary electrophoresis and its application in separation and other fields were discussed. The separation mode,separation principle,combined technology and coating technology of capillary electrophoresis were described. The principle and application of coating technology for mesoporous materials in capillary electrophoresis were introduced,such as the research and development of coating technology in the process of capillary electrophoresis analysis and its application in drug resolution,environmental monitoring,clinical detection,etc.
The advantages of capillary electrophoresis and its application in separation and other fields were discussed. The separation mode,separation principle,combined technology and coating technology of capillary electrophoresis were described. The principle and application of coating technology for mesoporous materials in capillary electrophoresis were introduced,such as the research and development of coating technology in the process of capillary electrophoresis analysis and its application in drug resolution,environmental monitoring,clinical detection,etc.
引文
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[25]丁晓静,杨媛媛,李芸,等.原料奶、婴儿配方奶粉及酸奶中蛋白去除效果的研究[J].分析化学,2010,38(1):77-81.
[26]李学章.绿色分析测试技术在食品检验中的应用[J].现代食品,2017(1):25-27.
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[34] Li P,Zhang X,Hu B. J Chromatogr A,2011,1218(52):9414.
[35] Arroyo-Manzanares N,Gamiz-Gracia L,GarciaCampana A M,et al. Electrophoresis,2010,31(13):2180.
[36]徐银娣,董华平,胡六江,等.高效毛细管电泳分离水样中的硝基苯类化合物[J].化学工程师,2012(4):27-29.
[37]彭振磊,张育红,李诚炜,等.毛细管电泳法快速测定催化剂生产废水中的柠檬酸[J].石油化工,2013,42(12):1388-1392.
[38]石艳利,李振雨.毛细管电泳技术及其应用[J].山东化工,2015,44:74-75.
[39]贠亚培,宋荣娜.毛细管电泳技术的研究应用[J].山东工业技术,2016,17(11):194.
[2]徐祥云,彭君,何志坤.浅谈毛细管电泳的基本原理及相关技术[J].宁夏农林科技,2012,53(11):91-92,95.
[3] Chen J I,Hsieh K H. Nanochitosan crosslinked with polyacrylamide as the chiral stationary phase for open-tubular capillary electrochromatography[J]. Electrophoresis,2011,32:398-407.
[4]周圣强.纳米磁性粒子研究现状及进展[J].宿州教育学院学报,2010,13(6):118-120.
[5]Vaher M,Koel M,Kaljurand M. Ionic liquids as electrolytes for nonaqueous capillary electrophoresis[J]. Electrophoresis,2002,23(3):426.
[6]Qin W D,Wei H P,Li S F Y. Separation of ionic liquid cations and related imidazole derivatives by a-cyclodextrin modified capillary zone electrophoresis[J]. Analyst,2002,127:490-493.
[7] Markuszewski M J,Stepnowski P,Marszall M P.Capillary electrophoretic separation of cationic constituents of imidazolium ionic liquids[J]. Electrophoresis,2004,25(20):3450-3454.
[8] Benhier D,Varenne A,Gareil P,et al. Capillary electrophoresis monitoring of halide impurities in ionic liquids[J]. Nalyst,2004,129:1257-1261.
[9] Fan Z H,Mangru S,Granzow R,et al. Dynamic DNA hybridization on a chip using paramagnetic beads[J]. Analytical Chemistry,1999,71(21):4861-4869.
[10]Geim A K,Philip K. Carbon Wonderland[J].Scientific American,2008,298(4):90-97.
[11]Liang R P,Liu C M,Meng X Y,et al. A novel open-tubular capillary electrochromatography usingβ-cyclodextrin functionalized graphene oxide-magnetic nanocomposites as tunable stationary phase[J]. Journal of Chromatography A,2012,1266:95-102.
[12]Ye N S,Li J,Gao C,et al. Simultaneous determination of atropine,scopolamine,and anisodamine in Flosdaturae by capillary electrophoresis using a capillary coated by graphene oxide[J].Journal of Separation Science,2013,36:2698-2702.
[13] Furdui V I,Harrison D J. Immunomagnetic T cell capture from blood for PCR analysis using microfluidic systems[J]. Lab on a Chip,2004,4:614-618.
[14]于虹敏,林文津,徐榕青.毛细管电泳技术在药学研究的应用概述[J].中国民族民间医药,2012(01):34.
[15]李佳,丁晓静,李芸,等.胶束电动毛细管色谱法同时测定西洋参中人参皂苷Rg1、Re和Rb1[J].色谱,2011,29:259-264.
[16]赵斌,郎翠红.几种常用现代技术在中药检验中的应用概况分析[J].中国卫生产业,2016,34:58-60.
[17]郑萍.毛细管区带电泳法测定三七药材中的三七素[J].华西药学杂志,2012,27(4):453-454.
[18]罗益远,刘娟秀,刘训红,等.胶束电动毛细管电泳同时测定何首乌中7种指标成分含量的研究[J].中国药学杂志,2015,50(9):802-807.
[19]陈琴华,李鹏,朱军.毛细管电泳技术在黄酮类化合物分析中的应用进展[J].医药导报,2012,31(10):1329-1333.
[20]郭丹,陈娜娜.高效毛细管电泳结合PCR法鉴别南葶苈子与车前子[J].中国药房,2010,21(3):232-233.
[21] Ma S,Nashabeh W. Carbohydrate analysis of a chimeric recombinant monoclonal antibody by capillary electrophoresis with laser-induced fluorescence detection[J]. Anal Chem,1999,71(22):5185-5192.
[22]Zakaria P,Macka M,Haddad P R. J Chromatogr A,2004,1031:179.
[23] Schulze M,Belder D. Electrophoresis,2012,33:370.
[24]宋珑.毛细管电泳-发光二极管诱导荧光分析蛋白质[D].天津:天津医科大学,2014.
[25]丁晓静,杨媛媛,李芸,等.原料奶、婴儿配方奶粉及酸奶中蛋白去除效果的研究[J].分析化学,2010,38(1):77-81.
[26]李学章.绿色分析测试技术在食品检验中的应用[J].现代食品,2017(1):25-27.
[27] Mejia E,Ding Y S,Mora M F,et al. Food Chem,2007,102(4):1027.
[28]Fukuji T S,Castro-Puyana M,Tavares M F M,et al. J Agric Food Chem,2011,59(22):11903.
[29]Parr M K,Oplermann G,Schanzer W. Bioanalysis,2009,1(2):437.
[30]Wang W,Zhang Y,Wang J,et al. Meat Science,2010,85(2):302.
[31] Luo X,Jiang X,Tu X,et al. Electrophoresis,2010,31(4):688.
[32]Chang C W,Chu S P,and Tseng W I. J Chromatogr A,2010,1217(49):7800.
[33]Dong Y L,Yan N,Li X,et al. J Chromatogr A,2012,1233:156.
[34] Li P,Zhang X,Hu B. J Chromatogr A,2011,1218(52):9414.
[35] Arroyo-Manzanares N,Gamiz-Gracia L,GarciaCampana A M,et al. Electrophoresis,2010,31(13):2180.
[36]徐银娣,董华平,胡六江,等.高效毛细管电泳分离水样中的硝基苯类化合物[J].化学工程师,2012(4):27-29.
[37]彭振磊,张育红,李诚炜,等.毛细管电泳法快速测定催化剂生产废水中的柠檬酸[J].石油化工,2013,42(12):1388-1392.
[38]石艳利,李振雨.毛细管电泳技术及其应用[J].山东化工,2015,44:74-75.
[39]贠亚培,宋荣娜.毛细管电泳技术的研究应用[J].山东工业技术,2016,17(11):194.