Adsorption Properties and Electron-transfer Rates of a Redox Probe at Different Interfaces of an Immunoassay Assembled on an Electro-active Photonic Platform

Abstract: Physical and chemical properties of a redox protein adsorbed to different interfaces of a multilayer immunoassay assembly were studied using a single-mode, electro-active, integrated optical waveguide (SM-EA-IOW) platform. For each interface of the immunoassay assembly (indium tin oxide, 3-aminopropyl triethoxysilane, recombinant protein G, antibody, and bovine serum albumin) the surface density, the adsorption kinetics, and the electron-transfer rate of bound species of the redox-active cytochrome c (Cyt-C) p… Show more

“…This unique electrode-based immunosensor was able to accurately detect AFP in human plasma samples. Ghithan et al investigated the physical and chemical properties of redox proteins adsorbed at different interfaces in a multilayer immunoassay assembly using a single-mode, electroactive, integrated optical waveguide (SM-EA-IOW) platform [ 9 ]. The electron-transfer rate of bound species of the redox-active cytochrome c (Cyt-C) protein was quantified.…”

Electrochemical analysis based on bioaffinity

“…This unique electrode-based immunosensor was able to accurately detect AFP in human plasma samples. Ghithan et al investigated the physical and chemical properties of redox proteins adsorbed at different interfaces in a multilayer immunoassay assembly using a single-mode, electroactive, integrated optical waveguide (SM-EA-IOW) platform [ 9 ]. The electron-transfer rate of bound species of the redox-active cytochrome c (Cyt-C) protein was quantified.…”

Electrochemical analysis based on bioaffinity

Investigating the influence of solvent type and pH on protein adsorption onto silica surface by evanescent-wave cavity ring-down spectroscopy