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Self-adhesive and printable tannin–graphene supramolecular aggregates for wearable potentiometric pH sensing
[Display omitted] •A self-adhesive tannin–graphene supramolecular pH-sensitive material is proposed.•The material adheres well to various solid and soft substrates.•The sensor exhibits reversible, Nernstian and selective pH responses.•The material can be printed directly to fabricate a wearable sens...
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Published in: | Electrochemistry communications 2022-04, Vol.137, p.107261, Article 107261 |
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Main Authors: | , , , , , , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | [Display omitted]
•A self-adhesive tannin–graphene supramolecular pH-sensitive material is proposed.•The material adheres well to various solid and soft substrates.•The sensor exhibits reversible, Nernstian and selective pH responses.•The material can be printed directly to fabricate a wearable sensor for sweat pH monitoring.
The pH of sweat is the most common biochemical parameter monitored by integrated wearable devices. A crucial factor in sensing materials for wearable applications is strong contact both with the skin and with the electrode substrate. Currently, the deposition of many sensitive materials on a substrate relies on mixing a small amount of binder, which raises the issue of biocompatibility and the risk of detachment. Herein, we report self-adhesive tannin–graphene supramolecular aggregates for use in wearable potentiometric pH sensors. The abundant phenolic hydroxyl groups in tannin (TA) result in strong adhesion and are also the pH response sites. The graphene (reduced graphene oxide, RGO) induces the supramolecular formation of TA and promotes electron transfer based on the π-π conjugation interaction. The pH sensor has a reversible and Nernstian response, and is not affected by potentially interfering ions. Owing to the strong adhesion of TA–RGO, a wearable pH device was directly fabricated using a dispensing printing technique. The sensor has been shown to be successful in monitoring the pH of sweat in real time. This work emphasizes the importance of the adhesion of sensing materials for use in wearable electrochemical sensors. |
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ISSN: | 1388-2481 1873-1902 |
DOI: | 10.1016/j.elecom.2022.107261 |