Litcius/Paper detail

Highly Sensitive Fluorescent pH Microsensors Based on the Ratiometric Dye Pyranine Immobilized on Silica Microparticles

Anil Chandra, Saumya Prasad, Helena Iuele, Francesco Colella, Riccardo Rizzo, Eliana D'Amone, Giuseppe Gigli, Loretta L. del Mercato

2021Chemistry - A European Journal25 citationsDOIOpen Access PDF

Abstract

Pyranine (HPTS) is a remarkably interesting pH-sensitive dye that has been used for plenty of applications. Its high quantum yield and extremely sensitive ratiometric fluorescence against pH change makes it a very favorable for pH-sensing applications and the development of pH nano-/microsensors. However, its strong negative charge and lack of easily modifiable functional groups makes it difficult to use with charged substrates such as silica. This study reports a methodology for noncovalent HPTS immobilization on silica microparticles that considers the retention of pH sensitivity as well as the long-term stability of the pH microsensors. The study emphasizes the importance of surface charge for governing the sensitivity of the immobilized HPTS dye molecules on silica microparticles. The importance of the immobilization methodology, which preserves the sensitivity and stability of the microsensors, is also assessed.

Topics & Concepts

PyranineChemistryFluorescenceSurface chargeQuantum yieldSensitivity (control systems)MoleculeCovalent bondPolyethylenimineYield (engineering)Chemical engineeringFluorescence spectroscopyPhotochemistryCharge densitySurface modificationChromatographyElectrolytepH indicatorCharge (physics)Electrostatic interactionColloidNanotechnologyAnalytical Chemistry and SensorsMolecular Sensors and Ion DetectionPolydiacetylene-based materials and applications