微型多孔材料
膜
聚丙烯
离子
化学工程
铬
化学
离子运输机
高分子化学
材料科学
色谱法
有机化学
生物化学
工程类
作者
Yesid Tapiero,Bernabé L. Rivas,Julio Sánchez
标识
DOI:10.4067/s0717-97072014000400022
摘要
Polypropylene (PP) membranes incorporating interpenetrating polymer networks of poly [(ar-vinylbenzyl) trimethylammonium chloride](P(ClVBTA)) and poly[sodium (styrenesulfonate)] P(SSNa) were modified via an "in-situ" radical polymerization synthesis inside the pores. The modified polypropylene membranes were characterized using SEM, ATR/FTIR, DRX, TGA, and Donnan dialysis for the transport of chromium ions. The modified membranes exhibited a percent modification between 2.5% and 4.0% in weight gain and a hydrophilic character with a water uptake capacity between 15% and 20%. The mass transport coefficient was determined using the non-linear fit of the experimental data to the exponential equation. Hexavalent chromium ions were efficiently transported by the modified membranes containing P(ClVBTA). At pH 3.0, the M4Cl.PEI (11.010 -6 m s -1 ), and at pH 9.0, the M3Cl (14.410 -6 m s -1 ) could transport hexavalent chromium ions efficiently using a 1 mol L -1 NaCl extraction agent. In the same way, the transport of trivalent chromium could be performed using membranes modified with P(SSNa). At pH 3.0 and 4.010 -2 mol L -1 trivalent chromium in the food chamber, the M9Na.PVA (16.310 -6 m s -1 ) performed efficient transport using 110 -3 mol L -1 HNO 3 as the extraction agent.
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