Cyclic and square-wave voltammetry for selective simultaneous NO and O2 gas detection by means of solid electrolyte sensors

IF 0.8 Q4 INSTRUMENTS & INSTRUMENTATION

Journal of Sensors and Sensor Systems Pub Date : 2020-10-29 DOI:10.5194/jsss-9-355-2020

A. Ruchets, N. Donker, J. Zosel, D. Schönauer-Kamin, R. Moos, U. Guth, M. Mertig

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引用次数: 0

Abstract

Abstract. Solid electrolyte gas sensors (SESs) based on yttria-stabilized zirconia (YSZ) are suitable to detect traces of redox components in inert gases. Usually, their signals are generated as a voltage between two electrodes at open circuit potential or as a current flowing between constantly polarized electrodes. In these rather stationary modes of operation, SESs often lack the desired selectivity. This drawback can be circumvented if SESs are operated in dynamic electrochemical modes that utilize the differences of electrode kinetics for single components to distinguish between them. Accordingly, this contribution is directed to the investigation of cyclic voltammetry and square-wave voltammetry as methods to improve the selectivity of SESs. For this, a commercial SES of the type “sample gas, Pt | YSZ | Pt, air” was exposed to mixtures containing NO and O2 in N2 in the temperature range between 550 and 750 ∘ C. On cyclic voltammograms (CVs), NO-related peaks occur in the cathodic direction at polarization voltages between −0.3 and −0.6 V at scan rates between 100 and 2000 mV s −1 and temperatures between 550 and 750 ∘ C. Their heights depend on the NO concentration, on the temperature and on the scan rate, providing a lower limit of detection below 10 ppmv, with the highest sensitivity at 700 ∘ C. The O2 -related peaks, appearing also in the cathodic direction between −0.1 and −0.3 V at scan rates between 100 and 5000 mV s −1 , are well separated from the NO-related peaks if the scan rate does not exceed 2000 mV s −1 . Square-wave voltammograms (SWVs) obtained at a pulse frequency of 5 Hz, pulses of 0.1 mV and steps of 5 mV in the polarization range from 0 to −0.6 V also exhibit NO-related peaks at polarization voltages between −0.3 and −0.45 V compared to the Pt–air (platinum–air) electrode. In the temperature range between 650 and 750 ∘ C the highest NO sensitivity was found at 700 ∘ C. O2 -related peaks arise in the cathodic direction between −0.12 and −0.16 V, increase with temperature and do not depend on the concentration of NO. Since capacitive currents are suppressed with square-wave voltammetry, this method provides improved selectivity. In contrast to cyclic voltammetry, a third peak was found with square-wave voltammetry at −0.48 V and a temperature of 750 ∘ C. This peak does not depend on the NO concentration. It is assumed that this peak is due to the depletion of an oxide layer on the electrode surface. The results prove the selective detection of NO and O2 with SESs operated with both cyclic voltammetry and square-wave voltammetry.

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固体电解质传感器选择性同时检测NO和O2气体的循环和方波伏安法

摘要基于氧化钇稳定氧化锆（YSZ）的固体电解质气体传感器（SES）适用于检测惰性气体中微量氧化还原成分。通常，它们的信号是作为开路电位下两个电极之间的电压或恒定极化电极之间的电流产生的。在这些相当稳定的操作模式中，SES通常缺乏所需的选择性。如果SES在动态电化学模式下运行，利用单个组分的电极动力学差异来区分它们，则可以克服这一缺点。因此，这一贡献旨在研究循环伏安法和方波伏安法作为提高SES选择性的方法。为此，将“样品气体，Pt|YSZ|Pt，空气”类型的商业SES暴露在温度范围为550至750的N2中含有NO和O2的混合物中 ∘ C.在循环伏安图（CV）中，在−0.3和−0.6之间的阴极定向极化电压中出现NO相关峰值扫描速率在100和2000之间的V mV s−1，温度在550和750之间 ∘ C.它们的高度取决于NO浓度、温度和扫描速率，提供低于10的检测下限 ppmv，最高灵敏度为700 ∘ C.与O2相关的峰值，也出现在−0.1和−0.3之间的阴极方向上扫描速率在100和5000之间时的V mV 如果扫描速率不超过2000，则s−1与NO相关峰值很好地分离 mV s−1。在5Hz的脉冲频率、0.1的脉冲下获得的方波伏安图（SWVs） mV，步长为5 极化范围为0至−0.6时的mV 在−0.3和−0.45之间的极化电压下，V也表现出NO相关峰值 V与Pt–空气（铂–空气）电极相比。在650和750之间的温度范围内 ∘ C最高的NO敏感性在700 ∘ C.与O2相关的峰值出现在−0.12和−0.16之间的阴极方向 V、由于方波伏安法可以抑制电容电流，因此该方法提供了改进的选择性。与循环伏安法相反，方波伏安法在−0.48处发现了第三个峰 V和750的温度 ∘ C.该峰值与NO浓度无关。假设该峰值是由于电极表面上的阳极氧化层的耗尽。结果证明了SESs同时用循环伏安法和方波伏安法选择性检测NO和O2。

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来源期刊

Journal of Sensors and Sensor Systems INSTRUMENTS & INSTRUMENTATION-

CiteScore

2.30

自引率

10.00%

发文量

审稿时长

23 weeks

期刊介绍： Journal of Sensors and Sensor Systems (JSSS) is an international open-access journal dedicated to science, application, and advancement of sensors and sensors as part of measurement systems. The emphasis is on sensor principles and phenomena, measuring systems, sensor technologies, and applications. The goal of JSSS is to provide a platform for scientists and professionals in academia – as well as for developers, engineers, and users – to discuss new developments and advancements in sensors and sensor systems.