Mixed-potential mechanism for the potentiometric response of the sodium tungsten bronze electrode to dissolved oxygen and in chelometric titrations

Hahn, P. B.; Johnson, Dennis C.; Wechter, Margaret A.; Voigt, A.F.

doi:10.1021/ac60340a010

Cited by 17 publications

(21 citation statements)

References 8 publications

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“…Although it has been found that an AgCl film spontaneously precipitates upon simply immersing silver in 1−2 M KCl solution, no films are formed in saturated KCl solution . The resulting potential will be a mixed potential, which is observed when two or more simultaneously proceeding oxidation and reduction reactions are involved in exhibiting a potential at the electrode/electrolyte interface. ,, Because the current and potential of each contribution are related with the Butler−Volmer equation, the electrode potential settles at a potential under the zero total current condition. It is evident that it is not an equilibrium state.…”

Section: Resultsmentioning

confidence: 99%

Microfabricated Liquid Junction Ag/AgCl Reference Electrode and Its Application to a One-Chip Potentiometric Sensor

and¹,

Shiroishi²,

and³

et al. 1999

Anal. Chem.

159

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A liquid-junction Ag/AgCl reference electrode was microfabricated. A silver thin-film pattern was covered with a polyimide protecting layer with a 50-µm-wide slit at the center of the pattern, and the AgCl layer was grown from there into the silver layer. A liquid junction was formed with a photocurable hydrophilic polymer. The electrolyte layer was formed by screen-printing a paste containing fine KCl powder. A silicone rubber passivation covered the entire area except for the pad and the end of the junction. The novel thin-film Ag/AgCl element could maintain its expected potential for longer than 30 h in a saturated KCl solution. The completed miniature liquidjunction reference electrode could maintain a stable potential level within (1 mV for longer than 100 h with the aid of a poly(vinylpyrrolidone) (PVP) matrix in the electrolyte layer. Fluctuation of the potential was less than 0.1 mV at each moment. Dependency on external KCl concentration and pH was shown to be insignificant. The miniature reference electrode was integrated with an iridium oxide pH indicator electrode. No significant difference was observed between the potential obtained with the miniature reference electrode and that obtained with a macroscopic commercial Ag/AgCl electrode, which confirmed that the miniature reference electrode was applicable to one-chip potentiometric sensors.

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Section: Resultsmentioning

confidence: 99%

Microfabricated Liquid Junction Ag/AgCl Reference Electrode and Its Application to a One-Chip Potentiometric Sensor

and¹,

Shiroishi²,

and³

et al. 1999

Anal. Chem.

159

View full text Add to dashboard Cite

show abstract

“…Additionally, a potentiometric sensor provides a direct measurement of the oxygen concentration, independent of the diffusion situation inside the sensor and the analyte. Different potentiometric sensors for dissolved oxygen have been realized based on sodium tungsten bronzes [ 6 , 7 ], antimony [ 8 ], copper [ 9 , 10 ], cobalt [ 11 , 12 ], and ruthenium oxide [ 13 ] as material for the indicator electrode. Among them, most promising is the usage of copper and cobalt electrodes because of their applicability in neutral pH media and up to air-saturated oxygen concentrations as well as the availability of these metals in microfabrication technology.…”

Section: Introductionmentioning

confidence: 99%

Active Potentiometry for Dissolved Oxygen Monitoring with Platinum Electrodes

Zimmermann

Weltin

Urban

et al. 2018

Sensors

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Potentiometric oxygen monitoring using platinum as the electrode material was enabled by the combination of conventional potentiometry with active prepolarization protocols, what we call active potentiometry. The obtained logarithmic transfer function is well-suited for the measurement of dissolved oxygen in biomedical applications, as the physiological oxygen concentration typically varies over several decades. We describe the application of active potentiometry in phosphate buffered salt solution at different pH and ion strength. Sensitivity was in the range of 60 mV/dec oxygen concentration; the transfer function deviated from logarithmic behavior for smaller oxygen concentration and higher ion strength of the electrolyte. Long-term stability was demonstrated for 60 h. Based on these measurement results and additional cyclic voltammetry investigations a model is discussed to explain the potential forming mechanism. The described method of active potentiometry is applicable to many different potentiometric sensors possibly enhancing sensitivity or selectivity for a specific parameter.

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“…Lipophilic ionic additives were not added to membranes to avoid the mixed potential response [15,16].…”

Section: Chemical Membranesmentioning

confidence: 99%

Development of silicon-based potentiometric sensors: Towards a miniaturized electronic tongue

Verrelli

Francioso

Paolesse

et al. 2007

Sensors and Actuators B: Chemical

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Mixed-potential mechanism for the potentiometric response of the sodium tungsten bronze electrode to dissolved oxygen and in chelometric titrations

Cited by 17 publications

References 8 publications

Microfabricated Liquid Junction Ag/AgCl Reference Electrode and Its Application to a One-Chip Potentiometric Sensor

Microfabricated Liquid Junction Ag/AgCl Reference Electrode and Its Application to a One-Chip Potentiometric Sensor

Active Potentiometry for Dissolved Oxygen Monitoring with Platinum Electrodes

Development of silicon-based potentiometric sensors: Towards a miniaturized electronic tongue

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