Bakker Eric, Pretsch Ernö
Department of Chemistry, Auburn University, AL 36849, USA.
Trends Analyt Chem. 2005 Mar;24(3):199-207. doi: 10.1016/j.trac.2005.01.003.
This review summarizes recent progress in the development and application of potentiometric sensors with limits of detection (LODs) in the range 10(-8)-10(-11) M. These LODs relate to total sample concentrations and are defined according to a definition unique to potentiometric sensors. LODs calculated according to traditional protocols (three times the standard deviation of the noise) yield values that are two orders of magnitude lower. We are targeting this article at analytical chemists who are non-specialists in the development of such sensors so that this technology may be adopted by a growing number of research groups to solve real-world analytical problems.We discuss the unique response features of potentiometric sensors and compare them to other analytical techniques, emphasizing that the choice of the method must depend on the problem of interest. We discuss recent directions in sensor design and development and present a list of 23 sensors with low LODs, with references. We give recent examples where potentiometric sensors have been used to solve trace-level analytical problems, including the speciation of lead and copper ions in drinking water, the measurement of free copper in sea water, and the uptake of cadmium ions by plant roots as a function of their speciation.
本综述总结了检测限(LOD)在10⁻⁸ - 10⁻¹¹ M范围内的电位传感器开发与应用的最新进展。这些检测限与总样品浓度相关,并根据电位传感器特有的定义来界定。按照传统方案(噪声标准偏差的三倍)计算得出的检测限值要低两个数量级。本文的目标读者是此类传感器开发领域的非专业分析化学家,以便越来越多的研究团队能够采用这项技术来解决实际分析问题。我们讨论了电位传感器独特的响应特性,并将其与其他分析技术进行比较,强调方法的选择必须取决于所关注的问题。我们探讨了传感器设计与开发的最新方向,并列出了23种具有低检测限的传感器及其参考文献。我们给出了电位传感器用于解决痕量分析问题的近期实例,包括饮用水中铅和铜离子的形态分析、海水中游离铜的测量以及植物根系对镉离子的吸收与其形态关系的研究。