|
|
|
| Structures control of carboxyl/pyridine-containing amphoteric ion exchange fibers |
| ;; |
| 中山大学教育部聚合物复合材料及功能材料重点实验室 |
|
Cite this article:
. Structures control of carboxyl/pyridine-containing amphoteric ion exchange fibers. Chin J Mater Res, 2004, 18(1): 18-18.
|
|
|
Abstract The structures of carboxyl/pyridine-containing amphoteric ion exchange fibers were investigated, and the adsorption properties of the obtained fibers for metal ions and amino acids were assessed. Experimental results showed that the amphoteric ion exchange fibers consist of carboxyl and pyridine groups. Their total ion exchange capacity, the rate of cationic and anionic groups, and the morphology can be controlled by changing the type of monomers and the load ratio of acidic and basic monomers. In addition, the competitive adsorbability of the amphoteric fibers can be controlled by the structures of the fibers and adsorption conditions. When the feed content of pyridine monomer increases, the anionic exchange capacity and the ratio of anionic groups to total capacity of the resultant fibers increase. The morphology of the amphoteric fibers is synthesized with both the textures of poly-vinyl-pyridine and poly-acrylic (or methacrylic) acid which were produced in single component grafting system. The amphoteric fibers prepared possess high adsorption capacity for Cu2+due to the coordination action of pyridine and carboxyl groups. When the contents of acidic and basic groups are close to each other, the coordination action for adsorption is enhanced.
|
|
Received: 12 May 2003
|
|
|
1 L.Dominguez, K.R.Benak, J.Economy, Polym.Advan.Technol., 12(3-4) , 197(2001)
2 W.P.Lin, Y.L.Hsieh, Industrial & Engineering Chemistry Research, 35(10) , 3817(1996)
3 J.Economy, L.Dominguez, C.L.Mangun, Industrial & Engineering Chemistry Research, 41(25) , 6436(2002)
4 I.V.Lavnikova, V.F.Zheltobryukhov, Russian Journal of Applied Chemistry, 74(12) , 2122(2001)
5 V.S.Soldatov, A.A.Shunkevich, G.I.Sergeev, Synthesis, Reactive Polymer, 7, 159(1988)
6 S.Mosleh, S.M.Gawish, Journal of Applied Polymer Science, 88(10) , 2504(2003)
7 FU Ruowen(符若文), WANG Fei(王菲), DU Xiuying(杜秀英), TANG Liyuan(汤丽鸳), LU Yun(陆耘), ZENG Hanmin(曾汉民), Synthetic Fiber Industry(合成纤维工业), 23(4) , 4(2000)
8 FU Ruowen(符若文), ZHANG Chunxia(张春霞), XU Jiarui(许家瑞), WANG Xuefei(王雪飞), LIN Yuan-sheng(林远声), Journal of Functional Polymers(功能高分子学报), 14(4) , 409(2001)
9 A.W.Trochimczuk, J.Jezierska, Polymer, 41(9) , 3463(2000)
10 G.K.Allaniyazova, Z.A.Tadzhikhodzhaev, A.T.Dzhalilov, Russian Journal of Applied Chemistry, 72(10) , 1824(1999)
11 S.M.Xu, S.F.Zhang, R.W.Lu, J.Z.Yang, C.X.Cui, Journal of Applied Polymer Science, 89(1) , 263(2003)
12 P.Ferruti, M.A.Marchisio, R.Duncan, Macromolecular Rapid Communications, 23(5-6) , 332(2002)
13 P.Ferruti, S.Manzoni, S.C.W.Richardson, R.Duncan, N.G.Pattrick, R.Mendichi, M.Casolaro, Macro-molecules, 33(21) , 7793(2000)
14 J.F.Moulder, W.F.Stickle, P.E.Sobol, K.D.Bomben, Handbook of X-ray Photoelectron Spectroscopy, Edited by Jill Chastain (Minnesota USA, Perkin-Elmer Corporation, 1995)
15 YING Shengkang(应圣康), YU Fengnian(余丰年), Principles of Co-Polymerization (共聚合原理), (Beijing, Chemical Industry Press, 1984)
16 FU Ruowen(符若文) ZHANG Chunxia(张春霞), XU Jiarui(许家瑞), Environmental Technology(环境技术), 21(1) , 22(2003)
17 E.A.Hegazy, El Assy, N.B.Dessouki, A.M.Dessouki, A.M.Shader, J.Radiat.Phys.Chem., 33, 13(1989) |
| No Suggested Reading articles found! |
|
|
Viewed |
|
|
|
Full text
|
|
|
|
|
Abstract
|
|
|
|
|
Cited |
|
|
|
|
| |
Shared |
|
|
|
|
| |
Discussed |
|
|
|
|
