Xu Yida, Xu Chao, Shvarev Alexey, Becker Thomas, De Marco Roland, Bakker Eric
Department of Chemistry, Purdue University, 560 Oval Drive, West Lafayette, Indiana 47907, USA.
Anal Chem. 2007 Sep 15;79(18):7154-60. doi: 10.1021/ac071201p. Epub 2007 Aug 21.
Polymeric membrane ion-selective electrodes are normally interrogated by zero current potentiometry, and their selectivity is understood to be primarily dependent on an extraction/ion-exchange equilibrium between the aqueous sample and polymeric membrane. If concentration gradients in the contacting diffusion layers are insubstantial, the membrane response is thought to be rather independent of kinetic processes such as surface blocking effects. In this work, the surface of calcium-selective polymeric ion-selective electrodes is coated with polyelectrolyte multilayers as evidenced by zeta potential measurements, atomic force microscopy, and electrochemical impedance spectroscopy. Indeed, such multilayers have no effect on their potentiometric response if the membranes are formulated in a traditional manner, containing a lipophilic ion exchanger and a calcium-selective ionophore. However, drastic changes in the potential response are observed if the membranes are operated in a recently introduced kinetic mode using pulsed chronopotentiometry. The results suggest that the assembled nanostructured multilayers drastically alter the kinetics of ion transport to the sensing membrane, making use of the effect that polyelectrolyte multilayers have different permeabilities toward ions with different valences. The results have implications to the design of chemically selective ion sensors since surface-localized kinetic limitations can now be used as an additional dimension to tune the operational ion selectivity.
聚合物膜离子选择性电极通常采用零电流电位分析法进行检测,其选择性主要取决于水样与聚合物膜之间的萃取/离子交换平衡。如果接触扩散层中的浓度梯度不显著,膜响应被认为与诸如表面阻滞效应等动力学过程相当独立。在这项工作中,通过zeta电位测量、原子力显微镜和电化学阻抗谱证明,钙选择性聚合物离子选择性电极的表面涂覆有聚电解质多层膜。实际上,如果膜以传统方式配制,包含亲脂性离子交换剂和钙选择性离子载体,这种多层膜对其电位响应没有影响。然而,如果膜采用最近引入的脉冲计时电位法动力学模式运行,则会观察到电位响应的剧烈变化。结果表明,组装的纳米结构多层膜极大地改变了离子传输到传感膜的动力学,利用了聚电解质多层膜对不同价态离子具有不同渗透性的效应。这些结果对化学选择性离子传感器的设计具有启示意义,因为表面局部的动力学限制现在可以用作调整操作离子选择性的一个额外维度。