Ink-jettable paper-based sensor for charged macromolecules and surfactants

The use of metachromatic dye-based formulations for the preparation of inkjettable prototype indicators suitable for the detection of charged macromolecules, surfactants or other low molecular weight molecules was investigated. Such indicators were based on the use of metachromatic o-toluidine blue...

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Bibliographic Details
Published inSensors and actuators. B, Chemical Vol. 195; no. May; pp. 389 - 395
Main Authors Swerin, Agne, Mira, Isabel
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2014
Subjects
Dipstick
Inkjet printing
Metachromatic dye
Polyelectrolyte
Sensor
Surfactant
Polyelectrolyte
Inkjet printing
Dipstick
Metachromatic dye
Surfactant
Sensor
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Summary:The use of metachromatic dye-based formulations for the preparation of inkjettable prototype indicators suitable for the detection of charged macromolecules, surfactants or other low molecular weight molecules was investigated. Such indicators were based on the use of metachromatic o-toluidine blue (OTB) that undergoes a characteristic change in color (from blue to pink) upon interaction with anionic macromolecules. When applied onto absorbing substrates such as paper and paperboard, solutions containing OTB and the same dye in the presence of potassium polyvinyl sulfate (KPVS), proved to indicate negatively charged polymers and cationic surfactants. The colorimetric responses suggest a detection limit and sensitivity both are in the order of 1mM of charged species but can be further improved. Interactions between active species in the indicators and some of the additives in inkjettable formulations (surfactant and humectants) interfered with the mechanism by which an OTB/KVPS-based system work only to a minor degree and could be overcome by priming the substrate. An OTB-based system was formulated into an inkjettable formulation that, once applied to a substrate, was showed to indicate charged polymers and surfactants. This concept has the potential for sensing/indication of other charged macromolecules, such as carboxylates and polyphosphates, which are relevant in biomedical (e.g. fouling due to microbial activity), packaging applications (e.g. migration or release of compounds, food spoilage), microfluidic devices or a simple dipstick application to indicate the presence of charged components.
ISSN:0925-4005
1873-3077
1873-3077
DOI:10.1016/j.snb.2014.01.064