Giesecke Marianne, Hallberg Fredrik, Fang Yuan, Stilbs Peter, Furó István
Division of Applied Physical Chemistry, Department of Chemistry, KTH Royal Institute of Technology , SE-10044 Stockholm, Sweden.
J Phys Chem B. 2016 Oct 6;120(39):10358-10366. doi: 10.1021/acs.jpcb.6b08923. Epub 2016 Sep 27.
Complex formation in methanol between monodisperse polyethylene oxide (PEO) and a large set of cations was studied by measuring the effective charge acquired by PEO upon complexation. Quantitative data were obtained at a low ionic strength of 2 mM (for some salts, also between 0.5 and 6 mM) by a combination of diffusion nuclear magnetic resonance (NMR) and electrophoretic NMR experiments. For strongly complexing cations, the magnitude of the acquired effective charge was on the order of 1 cation per 100 monomer units. For monovalent cations, the relative strength of binding varies as Na < K ≈ Rb ≈ Cs, whereas Li exhibited no significant binding. All polyvalent cations bind very weakly, except for Ba that exhibited strong binding. Anions do not bind, as is shown by the lack of response to the chemical nature of anionic species (perchlorate, iodide, or acetate). Diffusion experiments directly show that the acetate anion with monovalent cations does not associate with PEO. Considering all cations, we find that the observed binding does not follow any Hofmeister order. Instead, binding occurs below a critical surface charge density, which indicates that the degree of complexation is defined by the solvation shell. A large solvation shell prevents the binding of most multivalent ions.
通过测量聚环氧乙烷(PEO)在络合时获得的有效电荷,研究了单分散聚环氧乙烷(PEO)与大量阳离子在甲醇中的络合物形成。通过扩散核磁共振(NMR)和电泳NMR实验相结合,在2 mM的低离子强度下(对于某些盐,也在0.5至6 mM之间)获得了定量数据。对于强络合阳离子,每100个单体单元获得的有效电荷数量级为1个阳离子。对于单价阳离子,结合的相对强度变化为Na < K ≈ Rb ≈ Cs,而Li没有明显的结合。除了表现出强结合的Ba之外,所有多价阳离子的结合都非常弱。阴离子不结合,这通过对阴离子种类(高氯酸盐、碘化物或乙酸盐)的化学性质缺乏响应得以证明。扩散实验直接表明,单价阳离子的乙酸根阴离子不与PEO缔合。考虑所有阳离子,我们发现观察到的结合不遵循任何霍夫迈斯特序列。相反,结合发生在临界表面电荷密度以下,这表明络合程度由溶剂化壳层定义。大的溶剂化壳层阻止了大多数多价离子的结合。
