Jamie C. Sharp Norton scite author profile

In situ electrochemical methods involving both oxidative and reductive mediators were employed to modify the oxidation state (doping level) of PEDOT polymers in colloidal PEDOT-coated silica core−shell particles that were prepared as a dispersion encapsulated in a hydrogel matrix. The hydrogel-stabilized PEDOT particle suspensions were prepared as thin films (several hundred micrometers thick) on an ITO electrode surface and were equilibrated with an aqueous electrolyte containing a cocktail of redox mediators prior to mounting in a transmission-mode spectroelectrochemical cell. The modifications of the redox states of the PEDOT coating induced a change in the absorbance characteristics of the hydrogel films. The coated particles exhibited a maximum absorption peak centered at 800 nm in their doped (oxidized) state that could be significantly reduced through the electrochemical de-doping (reduction) of the PEDOT-coating on the particles.

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Electrochemical Redox of PEDOT-Coated Core-Shell Silica Spheres Stabilized in a PEG-Based Hydrogel Maxtrix: Modulation of the Optical Properties by Doping with Various Oxidative Mediators

Norton

Han

Creager

et al. 2012

International Journal of Electrochemical Science

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Jamie C. Sharp Norton

Electrochemical tuning the optical properties of crystalline colloidal arrays composed of poly(3,4-ethylenedioxythiophene) coated silica particles

Poly(3,4-ethylenedioxythiophene) (PEDOT)-Coated Silica Spheres: Electrochemical Modulation of the Optical Properties of a Hydrogel-Stabilized Core−Shell Particle Suspension

Electrochemical Redox of PEDOT-Coated Core-Shell Silica Spheres Stabilized in a PEG-Based Hydrogel Maxtrix: Modulation of the Optical Properties by Doping with Various Oxidative Mediators

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