|
OALib Journal期刊
ISSN: 2333-9721
费用:99美元
|
|
|
|
咖啡因替代物(茶碱)分子表面印迹材料的制备及其分子识别特性研究
DOI: 10.3724/SP.J.1105.2013.12369, PP. 1047-1057
Keywords: 聚甲基丙烯酸缩水甘油酯,硅胶,表面印迹,咖啡因替代物,分子识别
Abstract:
采用巯基-过氧化苯甲酰(BPO)氧化还原引发体系,先实现了甲基丙烯酸缩水甘油酯(GMA)在微米级硅胶微粒表面的引发接枝聚合,制得接枝微粒PGMA/SiO2.使接枝大分子PGMA的环氧基团与5-氨基水杨酸(ASA)发生开环反应,将水杨酸基团键合在接枝大分子侧链,制得功能接枝微粒SA-PGMA/SiO2,并对其化学结构与表面电性能进行了表征.考察研究了功能微粒SA-PGMA/SiO2与咖啡因替代物茶碱分子之间的相互作用力.研究表明,微粒SA-PGMA/SiO2与茶碱分子之间存在有强的次价键力(静电和氢键相互作用).在此基础上,采用本课题组建立的新型分子表面印迹技术,以咖啡因替代物茶碱为模板分子,乙二醇二缩水甘油醚(EGDE)为交联剂,对接枝在硅胶表面的功能大分子链SA-PGMA进行了交联印迹,制备了茶碱分子表面印迹材料MIP-SAP/SiO2,深入考察研究了其分子识别特性.实验结果表明,相对于两种对照物甘油茶碱和苦参碱,印迹材料MIP-SAP/SiO2对茶碱分子具有特异的识别选择性与优良的结合亲和性,相对于甘油茶碱,印迹材料对茶碱的识别选择性系数为7.72.
| [1] | 4 Chen J H,Wang F M,Liu J,Lee F S C,Wang X R,Yang H H.Anal Chim Acta,2008,613:184~195
|
| [2] | 10 Pi G P,Ren P,Yu J M,Shi R F,Yuan Z,Wang C H.J Chromatogr A,2008,1192:17~14
|
| [3] | 11 Zhang S J,Wang M Y,Wang C H.Sep Purif Technol,2011,76:428~431
|
| [4] | 12 Bian M,Zhang Z J,Yin H.J Pharm Biomed Anal,2012,58:163~167
|
| [5] | 13 Maurya A,Srivastava S K.J Chromatog B,2009,877:1732~1736
|
| [6] | 14 Heaton James,Gray N,Cowan D A,Plumb R S,Legido-Quigley C,Smith N W.J Chromatogr,2012,1228:329~337
|
| [7] | 15 Chen C Y,Wang C H,Chen A H.Talanta,2011,84:1038~1046
|
| [8] | 16 Fu Q,Fang Q,Feng B L,Sun S J,Du W,Amut E J,Xiao A P,Chang C.J Chromatogr B,2011,879:894~900
|
| [9] | 17 Tello J,Viguera M,Calvo L.J Supercrit Fluids,2011,59:53~ 60
|
| [10] | 18 Jun X.J Food Eng,2009,94:105~109
|
| [11] | 19 Farrington K,Magner E,Regan F.Analy Chim Acta,2006,566:60~68
|
| [12] | 20 Theodoridis G,Manesiotis P.J Chromatogr A,2002,948:163~169
|
| [13] | 23 Gai Q Q,Qu F,Liu Z J,Dai R J,Zhang Y K.J Chromatogr A,2010,1217:5035~5042
|
| [14] | 24 Liu H M,Liu C H,Yang X J,Zeng S J,Xiong Y Q,Xu W J.Analy Chim Acta,2008,628:87~94
|
| [15] | 25 Gao B J,Chen Y X,Men J Y.J Chromatogr A,2011,1218:5441~5448
|
| [16] | 26 Gao B J,Liu S Y,Li Y B.J Chromatogr A,2010,1217:2226~2236
|
| [17] | 27 Gao B J,Wang J,An F Q,Liu Q.Polymer,2008,49:1230~1238
|
| [18] | 28 Gao B J,Niu Q Y,Du R K.J Sep Sci,2010,9:1338~1348
|
| [19] | 1 Ling J Y, Zhang G Y,Cui Z J,Zhang C K.J Chromatogr A,2007,1145:123~127
|
| [20] | 2 Gao J M,Kamnaing P,Kiyota T,Watchueng J,Kubo T,Jarussophon S,KonishiY.J Chromatogr A,2008,1208:47~53
|
| [21] | 3 Pereira C G,Rosa P T V,Meireles M A A.J Supercrit Fluids,2007,40:232~238
|
| [22] | 5 Yang L,Wang H,Zu Y G,Zhao C J,Zhang L,Chen X Q,Zhang Z H.Chem Eng J,2011,172:705~712
|
| [23] | 6 González-Nu?ez L N,Ca?izares-Macías M P.Food Chemistry,2011,129:1819~1824
|
| [24] | 7 Cassel E,Vargas R M F,Brun G W,Almeida D E,Cogoi L,Ferraro G,Filip R.J Food Engin,2010,100:656~661
|
| [25] | 8 Mroczek T,Mazurek J.Analy Chim Acta,2009,633:188~196
|
| [26] | 9 Boyadzhiev L,Dimitrov K,Metcheva D.Chem Eng Sci,2006,61:4126~4128
|
| [27] | 21 Kitahara K I,Yoshihama I,Hanada T,Kokuba H,Arai S.J Chromatogr A,2010,1217:7249~7254
|
| [28] | 22 Pan J M,Yao H,Guan W,Ou H X,Huo P W,Wang X,Zou X H,Li C X.Chem Eng J,2011,172:847~ 855
|
| [29] | 29 Shi Xuejun(施雪军),Gao Baojiao(高保娇),Zhao Xinglong(赵兴龙),Ma Yuan(马园).Chemical Research and Application(化学研究与应用),2012,24:1414~1522
|
| [30] | 30 Ers?z A,Say R,Denizli A.Analy Chim Acta,2004,502:91~97
|
| [31] | 31 Say R,Ers?z A,Türk H,Denizli A.Sep Purif Technol,2004,40:9~14
|
Full-Text
|
|
Contact Us
service@oalib.com QQ:3279437679 
WhatsApp +8615387084133
|
|
