高效液相色谱整体柱技术研究进展
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摘要
高效液相色谱整体柱作为一种新型的分离介质,由于其制备工艺简单、易于修饰改性和分离性能优异,近年来引起了人们的广泛关注。聚合物整体柱具有生物相容性好、柱效高、寿命长、选材范围广、重现性好及使用不受p H限制等优势,广泛应用于食品、化工、农业、环境及生物医学领域小分子化合物及蛋白质的分离和检测,显示出较好的应用前景。本文就近10年液相色谱整体柱的制备、改性方法及应用的研究成果进行综述,并对其在不同应用领域的发展前景作了展望。
As a new type of separating medium,high performance liquid chromatography( HPLC) monolithic columns have attracted considerable attention on account of its own characteristics,such as the simple preparation process,easy to be modified and excellent separation properties. Especially,due to its favorable biocompatibility,high column efficiency,long life,wide of the raw material source,good repeatability,unrestricted by p H,polymerbased monolithic columns are frequently used to separate and detect some small molecules compounds and proteins in food,chemical industry,agriculture,environment and biomedical science,which have shown a promising application prospect. Refer to the latest reports about HPLC,this review will focus on the research achievements of the preparation,modification method and application of monolithic columns in recent ten years. In addition,the future prospects for development regarding monolithic columns in various fields are also expected.
As a new type of separating medium,high performance liquid chromatography( HPLC) monolithic columns have attracted considerable attention on account of its own characteristics,such as the simple preparation process,easy to be modified and excellent separation properties. Especially,due to its favorable biocompatibility,high column efficiency,long life,wide of the raw material source,good repeatability,unrestricted by p H,polymerbased monolithic columns are frequently used to separate and detect some small molecules compounds and proteins in food,chemical industry,agriculture,environment and biomedical science,which have shown a promising application prospect. Refer to the latest reports about HPLC,this review will focus on the research achievements of the preparation,modification method and application of monolithic columns in recent ten years. In addition,the future prospects for development regarding monolithic columns in various fields are also expected.
引文
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[33] F Svec,J M J Frechet. Science,1996,273:205~211.
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[36] F Svec. J. Chromatogr. A,2010,1217(6):902~924.
[37] R Guo,D Zhang,X Zhu et al. Chromatographia,2016,80(1):23~30.
[38] M Paljevac,J Kotek,K Je rˇabek et al. Macromol. Mater.Eng.,2018,303(2):1700337~170344.
[39] J F Wang,X Y Jiang,H Zhang et al. Anal. Methods,2015,7(18):7879~7888.
[40] G Guiochon. J. Chromatogr. A,2007,1168:101~168.
[41] W J Han,Y R Xin,U Hasegawa et al. Polym. Degrad.STab.,2014,109:362~366.
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[43] S Currivan,J M Macak,P Jandera. J. Chromatogr. A,2015,1402:82~93.
[44] P Guo,Z Luo,X Xu et al. Food Chem.,2017,217:628~636.
[45] T Hirano,S Kitagawa,H Ohtani et al. Anal. Bioanal. Chem.,2013,405(25):8319~8326.
[46] D Grzywinski,M Szumski,B Buszewski. J. Chromatogr. A,2016,1477:11~21.
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[48] T Koriyama,T A Asoh,A Kikuchi. Colloid. Surf.,B,2016,147:408~415.
[49] Z Mao,Z Chen. J. Chromatogr. A,2017,1480:99~105.
[50] S Liu,J Peng,Z Liu et al. Sci. Rep.,2016,6:34718~34728.
[51] Z Lin,H Huang,S Li et al. J. Chromatogr. A,2013,1271(1):115~123.
[52]张振宾,欧俊杰,林辉等.高等学校化学学报,2013,34(9):2011~2019.
[53] A M James,D Hayes. Anal. Chem.,2000,72(17):4090~4099.
[54] Z Zhang,Z Wu,M J Wirth. J. Chromatogr. A,2013,1301:156~161.
[55] R E Birdsall,B M Koshel,Y Hua et al. Electrophoresis,2013,34(5):753~760.
[56] C Aydogan,Z E Rassi. J. Chromatogr. A,2016,1445:55~61.
[57] Z Lin,J Pang,H Yang et al. Chem. Commun.,2011,47(34):9675~9677.
[58] X Wang,Y Zheng,C Zhang et al. J. Chromatogr. A,2012,1239:56~63.
[59] J Ou,Z Zhang,H Lin et al. Anal. Chim. Acta,2013,761:209~216.
[60] Q Yang,D Huang,S Jin et al. Analyst,2013,138(17):4752~4755.
[61] Y H Shan,L Z Qiao,X Z Shi et al. J. Chromatogr. A,2015,1375:101~109.
[62]翁中亚,薛芸,施文君等.色谱,2016,34(5):467~472.
[63] J C Zhao,Q Y Zhu,L Y Zhao et al. Analyst,2016,141(16):4961~4967.
[64] M Wu,R Wu,Z Zhang et al. Electrophoresis,2011,32(1):105~115.
[65] J Ou,Z Liu,H Wang et al. Electrophoresis,2015,36(1):62~75.
[66]范海波,杨荣杰,李向梅.化学学报,2012,70(16):1737~1742.
[67] T Yang,C Ma,H Chen et al. J. Sep. Sci.,2014,37(5):587~594.
[68] Y F Zhou,N Z Song,H J Zheng et al. New J. Chem.,2015,39(12):9714~9721.
[69] R F Qi,X J Lv,Q Niu et al. New J. Chem.,2015,39(8):6323~6331.
[70] Z S Liu,J Liu,Z Y Liu et al. J. Chromatogr. A,2017,1498:29~36.
[71] J Bai,Z Liu,H Wang et al. J. Chromatogr. A,2017,1498:37~45.
[72] K Nagase,J Kobayashi,A Kikuchi et al. RSC Adv.,2015,5(81):66155~66167.
[73] H S Wang,X Y Feng,J P Wei. J. Chromatogr. A,2015,1409:132~137.
[74] M Sudheendran,S H Eitel,S Naumann et al. New J. Chem.,2014,38(11):5597~5607.
[75] R Bandari,J Kuballa,M R Buchmeiser. J. Sep. Sci.,2013,36(7):1169~1175.
[76] R Bandari,M R Buchmeiser. Analyst,2012,137(14):3271~3277.
[77] T Zhou,H Yang,Z Jin et al. J. Sep. Sci.,2016,39(7):1339~1346.
[78] A M Yehia,H M Mohamed. J. Sep. Sci.,2016,39(11):2114:2122.
[79] T Chaloemsuwiwattanakan,A Sangcakul,C Kitiyakara et al.J. Sep. Sci.,2016,39(18):3521~3527.
[80] D S Domingues,I D Souza,M E Queiroz. J. Chromatogr. B,2015,993/994:26~35.
[81] M Mei,X Huang,K Liao et al. Anal. Chim. Acta,2015,860:29~36.
[82] H Zhai,Z Su,Z Chen et al. Anal. Chim. Acta,2015,865:16~21.
[83] B M Carvalho,L M Carvalho,W F Silva Jr. et al. Food Chem.,2014,154:308~314.
[84] J Wang,Q Zhao,N Jiang et al. J. Chromatogr. A,2017,1485:24~31.
[85] S Eeltink,S Wouters,J L Dores-Sousa et al. J. Chromatogr.A,2017,1498:8~21.
[86] J Zemenova,D Sykora,H Adamkova et al. J. Sep. Sci.,2017,40(5):1032~1039.
[87] H P Jiang,C B Qi,J M Chu et al. Sci. Rep.,2015,5:7785~7794.
[88] M Catala-Icardo,S Torres-Cartas,S Meseguer-Lloret et al.Anal. Chim. Acta,2017,960:160~167.
[89] F Yang,Q Bai,K Zhao et al. Anal. Bioanal. Chem.,2015,407:1721~1734.
[90] M Ding,Z Wang,R Zheng. Chin. J. Chem.,2010,28:567~572.
[91] H Sakamaki,T Uchida,L W Lim et al. J. Chromatogr. A,2015,1381:125~131.
[92] Y Liu,M M Wang,L F Ai et al. J. Sep. Sci.,2014,37(13):1648~1655.
[93] J Chen,X Min,P Li et al. Anal. Chim. Acta,2015,879:41~47.
[94] Y L Wang,M Mei,X J Huang et al. Anal. Methods,2015,7(2):551~559.
[95] Y K Lv,Z Y Guo,J Z Wang et al. Anal. Methods,2015,7(4):1563~1571.
[96] Y Shan,X Shi,G Xu. J. Sep. Sci.,2015,38(6):982~989.
[97] B Sandig,M R Buchmeiser. ChemSusChem,2016,6:1~6.
[98] T Nema,E C Chan,P C Ho. J. Pharm. Biomed. Anal.,2014,87:130~141.
[99] F Svec,Y Lv. Anal. Chem.,2015,87(1):250~273.