PEDOT/Superoxide Dismutase Electrode Surface Modification for Superoxide Bioelectrochemical Sensing

Abstract: An amperometric biosensor for the sensitive detection of superoxide was designed utilizing a drop‐coating approach for immobilizing the superoxide dismutase enzyme on Pt electrode modified with a thin layer of poly (3,4‐ethylenedioxythiophene) (PEDOT). The PEDOT layer electrodeposited on Pt was characterized by cyclic voltammetry and atomic force microscopy (AFM). Then, drop‐coating procedure was chosen for the immobilization of superoxide dismutase (SOD), which was incorporated at the electrode surface using… Show more

“…A NC biosensor with a Co-based architecture was used to detect O 2 ˙ − in real time in cells with high sensitivity. 43…”

“…A NC biosensor with a Cobased architecture was used to detect O 2 À in real time in cells with high sensitivity. 43 Using a dropcoating technique to immobilize the superoxide dismutase enzyme on a Pt electrode coated with a thin layer of poly(3,4-ethylenedioxythiophene) (PEDOT), an amperometric biosensor for the sensitive detection of superoxide was created. The PEDOT layer electrodeposited on platinum was analyzed using atomic force microscopy (AFM) and cyclic voltammetry.…”

Superoxide dismutase nanozymes: current status and future perspectives on brain disease treatment and diagnosis

“…A NC biosensor with a Co-based architecture was used to detect O 2 ˙ − in real time in cells with high sensitivity. 43…”

“…A NC biosensor with a Cobased architecture was used to detect O 2 À in real time in cells with high sensitivity. 43 Using a dropcoating technique to immobilize the superoxide dismutase enzyme on a Pt electrode coated with a thin layer of poly(3,4-ethylenedioxythiophene) (PEDOT), an amperometric biosensor for the sensitive detection of superoxide was created. The PEDOT layer electrodeposited on platinum was analyzed using atomic force microscopy (AFM) and cyclic voltammetry.…”

Superoxide dismutase nanozymes: current status and future perspectives on brain disease treatment and diagnosis

Nano-bioengineered sensing technologies for real-time monitoring of reactive oxygen species in in vitro and in vivo models

Immobilisation of an Enzymatic System on a Pedot-Modified Electrode to Quantify L-Malic Acid