An optically sensitive membrane for pH based on swellable polymer microspheres in a hydrogel

M. Rooney, W. Seitz
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引用次数: 31

Abstract

A membrane that is optically sensitive to pH has been prepared by suspending aminated polystyrene microspheres in a hydrogel. Light crosslinked poly(vinylbenzyl chloride) microspheres with diameters about 1 µm were prepared by dispersion polymerization and aminated with diethanolamine. These microspheres were suspended in a solution of hydroxyethylmethacrylate, which was then polymerized to form a hydrogel. The resulting membranes are turbid because the refractive index of the microspheres is greater than the refractive index of the hydrogel. Turbidity decreases with increasing wavelength. The turbidity of the membranes is greater in a base than in an acid. In acid, protonation of the amine group causes the polymer microspheres to swell. Swelling affects turbidity, both by increasing microsphere diameter and by reducing the microsphere refractive index so that it is closer to the refractive index of the hydrogel. The latter effect dominates in the membranes described here. A simplified theory to describe this behavior yields values that are consistent with observations. These membranes can be used for optical sensing in the visible and near-infrared regions, including wavelengths used for fiber optics telecommunications. They are expected to have excellent long-term stability. However, the microspheres prepared for this study respond very slowly because they are not sufficiently porous to allow easy analyte access to the interior of the polymer.
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一种基于水凝胶中可膨胀聚合物微球的pH值光学敏感膜
通过将胺化聚苯乙烯微球悬浮在水凝胶中制备了一种对pH值光学敏感的膜。采用分散聚合法制备了直径约为1µm的轻交联聚氯乙烯微球,并与二乙醇胺进行胺化反应。这些微球悬浮在羟乙基甲基丙烯酸酯溶液中,然后聚合形成水凝胶。所得到的膜是浑浊的,因为微球的折射率大于水凝胶的折射率。浑浊度随波长增加而降低。膜的浊度在碱中比在酸中更大。在酸中,胺基的质子化使聚合物微球膨胀。膨胀通过增加微球直径和降低微球折射率使其更接近水凝胶的折射率来影响浊度。后一种效应在这里描述的膜中占主导地位。描述这种行为的简化理论得出的值与观测结果一致。这些膜可用于可见光和近红外区域的光学传感,包括用于光纤通信的波长。人们期望它们具有优异的长期稳定性。然而,为本研究制备的微球反应非常缓慢,因为它们没有足够的多孔性,使分析物无法轻易进入聚合物的内部。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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