色谱固定相的超支化和聚酰胺-胺树状大分子接枝修饰方法研究进展
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摘要
随着色谱固定相制备技术深入发展,固定相填料的修饰方法日渐成熟,主要包括固定相表面直接化学反应、表面附聚、共价接枝和超支化修饰。其中,以缩聚反应为主的超支化修饰方法自提出以来备受研究者的青睐,已经被应用于多种阴离子交换色谱固定相填料的制备。近些年来,和超支化聚合物具有相似结构的树状大分子由于其独特的物理性能、完美的树状结构和大量活性官能团,也逐渐被应用于各种色谱固定相填料的修饰,并有望进一步完善固定相填料的结构和分离性能。该文主要总结了超支化修饰方法和以聚酰胺-胺为主的树状大分子接枝修饰方法在色谱固定相填料制备中的应用,并对其未来发展进行展望。
With the rapid development of chromatographic stationary-phase preparation technology,various modified methods are becoming increasingly mature, mainly including direct surface chemical reactions,agglomeration,grafting,and hyperbranched modification.Among these methods, hyperbranched modification based on polycondensation has been popular with researchers since it was proposed,and it has been applied to the preparation of various anion exchangers. Dendrimers are a class of three-dimensional,highly ordered dendritic macromolecules with perfect structure, high degree of surface functionality, and unique physicochemical properties. Recently, they have also gradually been applied in various chromatographic stationary-phase modifications and are expected to improve the structure and separation performance of the stationary phase,because its structure is similar to those of hyperbranched polymers. This article mainly summarizes the applications of hyperbranched and poly amidoamine dendrimers using grafted modification methods in the preparation of the chromatographic stationary phase. Finally,the trends and promising prospects of this field are presented.
With the rapid development of chromatographic stationary-phase preparation technology,various modified methods are becoming increasingly mature, mainly including direct surface chemical reactions,agglomeration,grafting,and hyperbranched modification.Among these methods, hyperbranched modification based on polycondensation has been popular with researchers since it was proposed,and it has been applied to the preparation of various anion exchangers. Dendrimers are a class of three-dimensional,highly ordered dendritic macromolecules with perfect structure, high degree of surface functionality, and unique physicochemical properties. Recently, they have also gradually been applied in various chromatographic stationary-phase modifications and are expected to improve the structure and separation performance of the stationary phase,because its structure is similar to those of hyperbranched polymers. This article mainly summarizes the applications of hyperbranched and poly amidoamine dendrimers using grafted modification methods in the preparation of the chromatographic stationary phase. Finally,the trends and promising prospects of this field are presented.
引文
[1]Zigmond J S,Pollack K A,Smedley S,et al.J Polym Sci Pol Chem,2016,54(2):238
[2]Xue L,Yang Z Z,Wang D X,et al.J Organomet Chem,2013,732:1
[3]Liu J Y,Huang W,Pang Y,et al.Chem Soc Rev,2015,44(12):3942
[4]Ghosh A,Banerjee S,Voit B.Porous CarbonsHyperbranched Polymers-Polymer Solvation.Cham:Springer Int Publishing Ag,2015
[5]Zheng Y C,Li S P,Weng Z L,et al.Chem Soc Rev,2015,44(12):4091
[6]Pohl C,Saini C.J Chromatogr A,2008,1213:37
[7]Guo Y J,Qin W D.Electrophoresis,2014,35:3549
[8]Chu C C,Ueno N,Imae T.J Nanosci Nanotechnol,2010,10(8):5324
[9]Guo D D,Lou C Y,Zhang P M,et al.J Chromatogr A,2016,1456:113
[10]Zikos C,Alexiou G,Ferderigos N.Tetrahedron Lett,2006,47(49):8711
[11]Stevens T S,Langhorst M A.Anal Chem,1982,54(6):950
[12]Zatirakha A V,Smolenkov A D,Pirogov A V,et al.J Chromatogr A,2014,1323:104
[13]Seino M,Yokomachi K,Hayakawa T,et al.Polymer,2006,47(6):1946
[14]Uzhel A S,Zatirakha A V,Shchukina O I,et al.J Chromatogr A,2016,1470:97
[15]Huang Z P,Xi L L,Subhani Q,et al.Carbon,2013,62:127
[16]Zhao Q M,Wu S C,Zhang K,et al.J Chromatogr A,2016,1468:73
[17]Zhang K,Cao M Y,Lou C Y,et al.Anal Chim Acta,2017,970:73
[18]Tomalia D A,Baker H,Dewald J,et al.Polym J,1985,17(1):117
[19]Tomalia D A.Abstr Pap Am Chem Soc,1990,199:315
[20]Newkome G R,Moorefield C N,Vgtle F.Dendrons and Dendrimers Concepts,Synthesis and Applications.Weinheim:Wiley-VCH,2001
[21]Fréchet J M J,Tomalia D A.Dendrimers and Other Dendritic Polymers.Chichester:John Wiley&Sons Ltd,2001
[22]Fu C,Li J P.Chin J Anal Che,2013,41(11):1762
[23]Vogtle F,Gestermann S,Hesse R,et al.Prog Polym Sci,2000,25(7):987
[24]Alavi S J,Gholami L,Askarian S,et al.J Nanopart Res,2017,19(2):49
[25]Taratula O,Garbuzenko O B,Kirkpatrick P,et al.J Control Release,2009,140(3):284
[26]Kesharwani P,Tekade R K,Jain N K.Biomaterials,2014,35(21):5539
[27]Nabid M R,Bide Y,Rezaei S J T.Appl Catal A-Gen,2011,406(1/2):124
[28]Medina S H,El-Sayed M E H.Chem Rev,2009,109(7):3141
[29]Huysal M,Senel M.J Colloid Interface Sci,2017,500:105
[30]Castagnola M,Cassiano L,Lupi A,et al.J Chromatogr A,1995,694:463
[31]Ge Y,Guo Y J,Qin W D.Talanta,2014,121:50
[32]Lei S L,Yu S L,Li Q Y,et al.Chin J Anal Chem,2001,29(10):1129
[33]Guo D D,Lou C Y,Wang N N,et al.Talanta,2017,168:188
[2]Xue L,Yang Z Z,Wang D X,et al.J Organomet Chem,2013,732:1
[3]Liu J Y,Huang W,Pang Y,et al.Chem Soc Rev,2015,44(12):3942
[4]Ghosh A,Banerjee S,Voit B.Porous CarbonsHyperbranched Polymers-Polymer Solvation.Cham:Springer Int Publishing Ag,2015
[5]Zheng Y C,Li S P,Weng Z L,et al.Chem Soc Rev,2015,44(12):4091
[6]Pohl C,Saini C.J Chromatogr A,2008,1213:37
[7]Guo Y J,Qin W D.Electrophoresis,2014,35:3549
[8]Chu C C,Ueno N,Imae T.J Nanosci Nanotechnol,2010,10(8):5324
[9]Guo D D,Lou C Y,Zhang P M,et al.J Chromatogr A,2016,1456:113
[10]Zikos C,Alexiou G,Ferderigos N.Tetrahedron Lett,2006,47(49):8711
[11]Stevens T S,Langhorst M A.Anal Chem,1982,54(6):950
[12]Zatirakha A V,Smolenkov A D,Pirogov A V,et al.J Chromatogr A,2014,1323:104
[13]Seino M,Yokomachi K,Hayakawa T,et al.Polymer,2006,47(6):1946
[14]Uzhel A S,Zatirakha A V,Shchukina O I,et al.J Chromatogr A,2016,1470:97
[15]Huang Z P,Xi L L,Subhani Q,et al.Carbon,2013,62:127
[16]Zhao Q M,Wu S C,Zhang K,et al.J Chromatogr A,2016,1468:73
[17]Zhang K,Cao M Y,Lou C Y,et al.Anal Chim Acta,2017,970:73
[18]Tomalia D A,Baker H,Dewald J,et al.Polym J,1985,17(1):117
[19]Tomalia D A.Abstr Pap Am Chem Soc,1990,199:315
[20]Newkome G R,Moorefield C N,Vgtle F.Dendrons and Dendrimers Concepts,Synthesis and Applications.Weinheim:Wiley-VCH,2001
[21]Fréchet J M J,Tomalia D A.Dendrimers and Other Dendritic Polymers.Chichester:John Wiley&Sons Ltd,2001
[22]Fu C,Li J P.Chin J Anal Che,2013,41(11):1762
[23]Vogtle F,Gestermann S,Hesse R,et al.Prog Polym Sci,2000,25(7):987
[24]Alavi S J,Gholami L,Askarian S,et al.J Nanopart Res,2017,19(2):49
[25]Taratula O,Garbuzenko O B,Kirkpatrick P,et al.J Control Release,2009,140(3):284
[26]Kesharwani P,Tekade R K,Jain N K.Biomaterials,2014,35(21):5539
[27]Nabid M R,Bide Y,Rezaei S J T.Appl Catal A-Gen,2011,406(1/2):124
[28]Medina S H,El-Sayed M E H.Chem Rev,2009,109(7):3141
[29]Huysal M,Senel M.J Colloid Interface Sci,2017,500:105
[30]Castagnola M,Cassiano L,Lupi A,et al.J Chromatogr A,1995,694:463
[31]Ge Y,Guo Y J,Qin W D.Talanta,2014,121:50
[32]Lei S L,Yu S L,Li Q Y,et al.Chin J Anal Chem,2001,29(10):1129
[33]Guo D D,Lou C Y,Wang N N,et al.Talanta,2017,168:188