A review of screen-printed silver/silver chloride (Ag/AgCl) reference electrodes potentially suitable for environmental potentiometric sensors

•A thorough review on screen-printed silver/silver chloride reference electrodes.•Advancements and improvements on the development of a more reliable, solid-state reference electrode.•Description of various approaches adopted over the years for performance optimization of silver/silver chloride refe...

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Bibliographic Details
Published in:Sensors and actuators. A. Physical. 2017-11, Vol.267, p.106-120
Main Authors: Sophocleous, Marios, Atkinson, John K.
Format: Article
Language:English
Subjects:
Ag/AgCl
Commercialization
Electrodes
Reference electrodes
Screen-printing
Sensors
Silver
Silver chloride
Silver/silver chloride
Solid-state
Studies
Thick-Film
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Summary:•A thorough review on screen-printed silver/silver chloride reference electrodes.•Advancements and improvements on the development of a more reliable, solid-state reference electrode.•Description of various approaches adopted over the years for performance optimization of silver/silver chloride reference electrodes. The screen-printed (SP), reference electrode (RE) has been shown to be a crucial element of potentiometric sensors but it is also the stumbling block for reliable and accurate SP sensors. The easiest, most common and most environmentally friendly, type of RE is the Silver/Silver Chloride (Ag/AgCl) RE. Unfortunately, until now the only reliable RE of this kind is the conventional, liquid or gel-filled type. However, for most environmental and soil applications the use of the conventional RE is not an option, which raises the demand for a robust, rugged and low-cost version to replace the conventional RE. This paper presents a review of the various attempts to produce reliable, SP, Ag/AgCl REs, and explain why almost all of them never reach the commercialisation stage. The paper provides an overview of the main challenges that need to be overcome, details of the electrode’s construction, an analytical comparison of their performance in terms of chloride susceptibility, cross-sensitivity and lifetime, and their suitability in different applications depending on their performance characteristics.
ISSN:0924-4247
1873-3069
DOI:10.1016/j.sna.2017.10.013