Design of gel electrolytes for electrochemical studies on metal surfaces with complex geometry

Monrrabal, Gleidys; Guzmán, S.; Hamilton, Ian; Bautista, A.; Velasco, F.

doi:10.1016/j.electacta.2016.10.081

Cited by 27 publications

(22 citation statements)

References 44 publications

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“…Amongst the liquid electrolyte cells, the contact cell developed by Letardi (or variations of it) is the one with a longest and more consolidated use. Solid electrolytes are more recent, but results with the agar G‐PE cell are promising and the system has been adopted and further developed by other groups ,. The use of a two surface‐mounted parallel cell configuration is an interesting approach to circumvent the problem of making electrical contact with the base metal, but the quality of the results published using this setup is still too poor to make this a real alternative.…”

Section: Discussionmentioning

confidence: 99%

In Situ Electrochemical Impedance Spectroscopy Measurements and their Interpretation for the Diagnostic of Metallic Cultural Heritage: A Review

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Cano

2018

ChemElectroChem

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Protecting metallic cultural heritage from corrosion is a major challenge for metal conservators. Electrochemical techniques offer a great potential for monitoring the conservation condition of this type of heritage, providing a powerful tool for designing conservation strategies. For this reason, the application of techniques such as electrochemical impedance spectroscopy (EIS) has aroused increasing interest in recent years, although some difficulties in application and interpretation of the results still keep it from being routine practice. This Review aims to picture the state-of-the-art of using electrochemical impedance spectroscopy (EIS) for the in situ monitoring of metallic cultural heritage, focusing on spectra interpretation and different approaches that have been proposed to perform field measurements since the 1990's. In the first part of the Review, different cell designs based on the use of liquid or solid electrolytes for in situ measurements are reviewed. In the second part, a few general equivalent circuits are proposed as a basis for interpreting results on different metal surfaces after discussing different models proposed in literature. This overview intends to summarize and clarify the key points in the use of EIS, and encourage the use of this and other electrochemical techniques in the field of conservation science, for a better preservation of our cultural heritage.

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Section: Discussionmentioning

confidence: 99%

In Situ Electrochemical Impedance Spectroscopy Measurements and their Interpretation for the Diagnostic of Metallic Cultural Heritage: A Review

Barat

Cano

2018

ChemElectroChem

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“…The mixture was stirred continuously for 10 min and then cured in a controlled environment where the temperature and relative humidity were kept at 20°C and 80%, respectively. More information about the gel manufacturing process can be found in a previous publication [16]. The conductivity of the gel electrolyte at room temperature was 3.5 mS cm -1 , its pH 6.6, its oxygen content 2.9 ppm, and its viscosity around 2 Pa s [16,17].…”

Section: Methodsmentioning

confidence: 99%

“…The manufacturing of electrochemical cells with gel electrolytes has already shown some advantages, as the ability to cover different angled surfaces and its easiness to be used as portable electrochemical cell for in-situ corrosion monitoring [13][14][15]. The formulation of the gel electrolyte used in the present work has been optimized in a previous study [16]. It comprises glycerol, which acts as plasticizer and is responsible for the adaptability of the cell, and agar, which provides the mechanical stability of the electrolyte required for the measurements on portable devices and contributes to the conductivity of the gel.…”

Section: En Has Received Considerable Attention In the Corrosion Domamentioning

confidence: 99%

“…The usefulness of this innovative electrolyte has already been tested for studying corrosion of stainless steel (SS) surfaces with complex geometry using d.c. polarization techniques [16] and EIS measurements [17]. The present paper presents a pioneering study on the use of the EN technique in ZRA, galvanostatic, and potentiostatic modes for investigating electrochemical processes in an electrochemical cell with gel electrolyte.…”

Section: En Has Received Considerable Attention In the Corrosion Domamentioning

confidence: 99%

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Electrochemical noise measurements on stainless steel using a gelled electrolyte

2019

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The present paper presents pioneering results about the use of the electrochemical noise (EN) technique to study corrosion of metal surfaces of complex geometry in a gel electrolyte based on agar-glycerol, the composition of which was previously optimized for electrochemical measurements on stainless steel (SS) surfaces. EN results obtained with AISI 304 SS electrodes in both gelled and liquid electrolytes using three different modes (zero-resistance ammeter, potentiostatic, galvanostatic) of measurements have been compared and discussed. Tests carried out in gel allow the possibilities and limitations of using portable gel cells for monitoring corrosion of SS complex surfaces to be determined.

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“…Agar is a translucent, cheap, non‐toxic, and quick and easy to prepare material, which admits a wide range of aqueous electrolytes and also contributes to conductivity. It's flexibility allows adaptation to irregular surfaces and can be improved by the addition of plasticizers,, and its syneresis helps wetting the surface and allowing good contact. Other proposed materials, have shown other limitations: Commercial or synthetized anionic gels are very limited by the electrolyte choice, and the use of PVA has to be more deeply studied, as preliminary results showed appreciable differences when compared to a traditional cell design.…”

Section: Introductionmentioning

confidence: 99%

Agar versus Agarose Gelled Electrolyte for In Situ Corrosion Studies on Metallic Cultural Heritage

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Cano

2019

ChemElectroChem

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The use of gelled electrolytes has revealed an interesting solution for in situ electrochemical measures on cultural heritage, where liquid electrolytes cannot be easily handled. After developing an agar gelled electrolyte cell, other gelling agents such as agarose are being considered to improve it. In this work, the performance of agarose gels in different concentrations has been studied and compared to agar and a liquid electrolyte. Measurements have been done on patinated quaternary bronze and weathering steel, as representative materials of outdoor monuments. Agarose gels have been validated for in situ corrosion studies on bronze and weathering steel sculptures.

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Design of gel electrolytes for electrochemical studies on metal surfaces with complex geometry

Cited by 27 publications

References 44 publications

In Situ Electrochemical Impedance Spectroscopy Measurements and their Interpretation for the Diagnostic of Metallic Cultural Heritage: A Review

In Situ Electrochemical Impedance Spectroscopy Measurements and their Interpretation for the Diagnostic of Metallic Cultural Heritage: A Review

Electrochemical noise measurements on stainless steel using a gelled electrolyte

Agar versus Agarose Gelled Electrolyte for In Situ Corrosion Studies on Metallic Cultural Heritage

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