CO2-induced Drastic Decharging of Dielectric Surfaces in Aqueous Suspensions

Peter Vogel, David Beyer, Christian Holm, Thomas Palberg
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Abstract

We study the influence of airborne CO2 on the charge state of carboxylate stabilized polymer latex particles suspended in aqueous electrolytes. We combine conductometric experiments interpreted in terms of Hessinger's conductivity model with Poisson-Boltzmann cell (PBC) model calculations with charge regulation boundary conditions. Without CO2, a minority of the weakly acidic surface groups are dissociated and only a fraction of the total number of counter-ions actually contribute to conductivity. The remaining counter-ions exchange freely with added other ions like Na+, K+ or Cs+. From the PBC-calculations we infer a corresponding pKa of 4.26 as well as a renormalized charge in reasonably good agreement with the number of freely mobile counter-ions. Equilibration of salt- and CO2-free suspensions against ambient air leads to a drastic de-charging, which exceeds by far the expected effects of to dissolved CO2 and its dissociation products. Further, no counter-ion-exchange is observed. To reproduce the experimental findings, we have to assume an effective pKa of 6.48. This direct influence of CO2 on the state of surface group dissociation explains our recent finding of a CO2-induced decrease of the {\zeta}-potential and supports the suggestion of an additional charge regulation caused by molecular CO2. Given the importance of charged surfaces in contact with aqueous electrolytes, we anticipate that our observations bear substantial theoretical challenges and important implications for applications ranging from desalination to bio-membranes.
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水悬浮液中二氧化碳诱导的介电表面剧烈放电
我们研究了空气中的二氧化碳对悬浮在水性电解质中的羧基稳定聚合物乳胶颗粒电荷状态的影响。我们将根据赫辛格电导率模型解释的电导实验与带有电荷调节边界条件的泊松-玻尔兹曼电池(PBC)模型计算相结合。在没有二氧化碳的情况下,少数弱酸性表面基团被解离,只有一小部分反离子对电导率有实际贡献。剩余的反离子会与 Na+、K+ 或 Cs+ 等其他离子自由交换。根据 PBC 计算,我们推断相应的 pKa 为 4.26,重正化电荷与自由移动的反离子数量相当吻合。将不含盐和二氧化碳的悬浮液在环境空气中平衡会导致剧烈的去电荷现象,这种现象远远超出了溶解的二氧化碳及其解离产物的预期影响。此外,没有观察到反离子交换。为了再现实验结果,我们必须假设有效 pKa 为 6.48。二氧化碳对表面基团解离状态的这种直接影响解释了我们最近发现的二氧化碳诱导的{\zeta}电位下降,并支持了由分子二氧化碳引起的附加电荷调节的观点。鉴于与水电解质接触的带电表面的重要性,我们预计我们的观察结果将对从海水淡化到生物膜的应用带来巨大的理论挑战和重要影响。
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