Electrochemistry of Biosystems
Linking Glucose Oxidation to Luminol-based Electrochemiluminescence using bipolar Electrochemistry
Asymmetric Modification of TiO2 Nanofibers with Gold by Electric-Field-Assisted Photochemistry
Stimuli-responsive microgels for electrochemiluminescence amplification

H. Li, M. Sentic, V. Ravaine and N. Sojic

Phys. Chem. Chem. Phys., 2016, in press

We report the effects of the swell-to-collapse transition on the electrochemical and electrochemiluminescent (ECL) properties of thermoresponsive pNIPAM films incorporating covalently-attached Ru(bpy)32+ luminophores. Upon collapse of the film, the number of electrochemically-active Ru(bpy)32+ centers increases, due to the reduced distance between adjacent redox centers. To generate ECL, cationic and anionic coreactants are employed, which are free to diffuse in the medium. In both cases, the ECL intensity exhibits a remarkable amplification up to a 58-fold at the swell-to-collapse transition, whereas the oxidation current undergoes a steep decrease in the case of cationic coreactant. Indeed, the diffusion of the coreactant is hindered by the collapse of the film. The fact that ECL emission is enhanced whereas less coreactant radicals are generated is an intriguing observation because it is classically believed that the higher the oxidation rate of the coreactant the stronger the ECL emission. Thanks to the study of such films where antagonistic effects occur, we demonstrate that ECL enhancement is not correlated to the oxidation efficiency of the coreactant nor to the hydrophilic-hydrophobic transition, but solely due to the film shrinking. The decrease of the distance between adjacent redox centers, which favors better electron-transfer processes, is found to be the main parameter governing the ECL enhancement. Finally, it is noteworthy that the present turn-on ECL signal with increasing temperature is unique compared to many thermoresponsive luminescent systems.

2016 22

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