Reliable and inexpensive dissolved oxygen sensing materials

IF 2.4 4区 工程技术 Q3 ELECTROCHEMISTRY
Alexander Gießel, Nandor Ziebart, Felix Lenk, Thomas Walther
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Abstract

Abstract Bare, non-pretreated platinum wires and screen-printed platinum electrodes were used as both working and counter electrodes in the measurement of dissolved oxygen using a chronoamperometric method. The oxygen reduction current response in the diffusion state was used for a linear determination of air saturation. We evaluated the two different materials in general for their sensing performance such as conditioning time, accuracy, resolution and stability over 13 h of continuous mid-term measurement. A good performance was found for the wire electrodes in terms of accuracy with a current slope of 1.0–1.6 µA (% as)-1 and a resolution of 10–15 nA (Lowest Level of Detection = 0.1% as), but with an unstable current response result over the course of the measurement. The screen-printed electrodes have a resolution of 10–18 nA (Lowest Level of Detection = 0.6–0.8% as) and an accuracy of 620–660 nA (% as)-1 but they showed promising reproducibility and stability. Both materials require several hours of conditioning in the chronoamperometric method before a stable current response is achieved. For biotechnological applications, the platinum screen printed electrodes were evaluated in typical parameter settings (pH 4.0 and 7.4, salinity 0.1 to 10x phosphate buffered saline and temperature 12 to 42 °C) and showed correlations between the response time and stability and the temperature. No correlations were found between salinity, pH and the current response. In this paper, we present inexpensive electrode materials and a simple to implement chronoamperometric method for reliable direct measurement of dissolved oxygen in aqueous media. Graphical abstract
可靠和廉价的溶解氧传感材料
摘要采用裸铂丝和丝网印刷铂电极作为工作电极和反电极,采用计时安培法测量溶解氧。氧还原电流在扩散状态下的响应被用于空气饱和度的线性测定。我们总体上评估了两种不同材料的传感性能,如调节时间、精度、分辨率和连续中期测量超过13小时的稳定性。在电流斜率为1.0-1.6µA (% as)-1和分辨率为10-15 nA(最低检测水平= 0.1% as)的精度方面,发现线电极具有良好的性能,但在测量过程中电流响应结果不稳定。丝网印刷电极的分辨率为10-18 nA(最低检测水平= 0.6-0.8% as),准确度为620-660 nA (% as)-1,但具有良好的重复性和稳定性。在获得稳定的电流响应之前,这两种材料都需要在计时安培法中进行几个小时的调理。对于生物技术应用,铂丝网印刷电极在典型参数设置(pH 4.0和7.4,盐度0.1至10倍磷酸盐缓冲盐水和温度12至42°C)下进行了评估,并显示了响应时间和稳定性与温度之间的相关性。盐度、pH值与电流响应之间没有相关性。在本文中,我们提出了一种廉价的电极材料和一种简单实现的计时安培法,用于可靠地直接测量水介质中的溶解氧。图形抽象
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来源期刊
Journal of Applied Electrochemistry
Journal of Applied Electrochemistry 工程技术-电化学
CiteScore
4.70
自引率
3.40%
发文量
133
审稿时长
2.9 months
期刊介绍: The Journal of Applied Electrochemistry is the leading journal on technologically orientated aspects of electrochemistry. The interface between electrochemical science and engineering is highlighted, emphasizing the application of electrochemistry to technological development and practice, and documenting properties and data of materials; design factors, design methodologies, scale-up, economics and testing of electrochemical devices and processes. The broad range of technologies includes energy conversion, conservation, and storage, new battery systems, fuel cells, super capacitors, solar cells, power delivery, industrial synthesis, environmental remediation, cell design, corrosion, electrochemical reaction engineering, medical applications of electrochemistry and bio-electrochemistry, the electrochemical treatment of effluents, hydrometallurgy, molten salt and solid state electrochemistry, surface finishing, electroplating, electrodeposition, sensors, and applications of molecular electrochemistry. It also publishes invited reviewed articles, book reviews and news items and a comprehensive electrochemical events calendar.
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