On the Complex Formation in Polyelectrolyte Nanogel Systems

M. Takekawa, K. Ogawa, E. Kokufuta
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Abstract

This paper aims to show aspects of complex formation in the polyelectrolyte nanogel system. Two sorts of systems, a polyanion (PA) and a cationic nanogel (CG) as well as an anionic nanogel (AG) and CG, were employed and studied mainly in the absence of simple salts by a combination of dynamic and static light scattering techniques. The main results are summarized as: (i) An intra-particle CG complex of PA forms via charge neutralization which follows a 1:1 stoichiometry; but (ii) the bound PA dissociates from the complex upon addition of CG, polycation or KC1, meaning that the polyelectrolyte exchange reaction takes place. (iii) The complexation upon addition of AG to CG whose charge number is grater than that of AG follows 'random model' in which the added AG uniformly binds to all of CG via a strong electrostatic attraction, whereas (iv) the addition of CG to AG results in a complex according to 'all-or-none model' in which a part of AG preferably binds to the added CG to neutralize its charges, but the other part is uncomplexed and remaining in the system. These can be understood by considering that the nanogels consist of cross-linked polyions and have the obscure sur連 絡 者:国 府 田 悦 男 E-mail:kokufuta@sakura.cc.tsukuba.ac.jp
聚电解质纳米凝胶体系中络合物的形成
本文旨在展示在聚电解质纳米凝胶体系中形成复合物的各个方面。采用动态光散射和静态光散射相结合的方法,对聚阴离子纳米凝胶(PA)和阳离子纳米凝胶(CG)以及阴离子纳米凝胶(AG)和CG两种体系进行了研究。主要结果总结如下:(i)粒子内PA的CG配合物通过电荷中和形成,遵循1:1的化学计量;但(ii)结合的PA在加入CG、多阳离子或KC1后会从配合物中解离,这意味着发生了多电解质交换反应。(iii)将AG加入电荷数大于AG的CG后,其络合作用遵循“随机模型”,即添加的AG通过强大的静电吸引均匀地与所有CG结合,而(iv)将CG加入AG后,其络合作用遵循“全或无模型”,即AG的一部分更倾向于与添加的CG结合以中和其电荷,但另一部分未络合并留在系统中。这些可以通过考虑纳米凝胶由交联多离子组成并具有模糊的sur - E-mail:kokufuta@sakura.cc.tsukuba.ac.jp来理解
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