用于检测飞摩尔级银离子的固态接触电位型聚合物膜微电极。
Solid-contact potentiometric polymer membrane microelectrodes for the detection of silver ions at the femtomole level.
作者信息
Rubinova Nastassia, Chumbimuni-Torres Karin, Bakker Eric
机构信息
Department of Chemistry, 560 Oval Drive, Purdue University, West Lafayette, IN 47907, U.S.A.
出版信息
Sens Actuators B Chem. 2006 Nov 16;121(1):135-141. doi: 10.1016/j.snb.2006.09.007.
Abstract
In recent years, ion-selective electrodes based on polymer membranes have been shown to exhibit detection limits that are often in the nanomolar concentration range, and thus drastically lower than traditionally accepted. Since potentiometry is less dependent on scaling laws that other established analytical techniques, their performance in confined sample volumes is explored here. Solid-contact silver-selective microelectrodes, with a sodium-selective microelectrode as a reference, were inserted into a micropipette tip used as a 50-mul sample. The observed potential stabilities, reproducibilities and detection limits were attractive and largely matched that for large 100-ml samples. This should pave the way for further experiments to detecting ultra-small total ion concentrations by potentiometry, especially when used as a transducer after an amplification step in bioanalysis.
摘要
近年来,基于聚合物膜的离子选择性电极已显示出检测限通常处于纳摩尔浓度范围,因此比传统公认的检测限低得多。由于电位分析法比其他既定分析技术对比例定律的依赖性较小,本文探讨了它们在受限样品体积中的性能。将以钠选择性微电极作为参比的固体接触银选择性微电极插入用作50微升样品的微量移液器尖端。观察到的电位稳定性、重现性和检测限很有吸引力,并且在很大程度上与100毫升大样品的情况相匹配。这应为通过电位分析法检测超小总离子浓度的进一步实验铺平道路,特别是在生物分析中的放大步骤后用作换能器时。
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