A novel biosensor system for cyanide based on a chemiluminescence reaction

Fibre-optic biosensors were constructed for determination of hypoxanthine and xanthine. Xanthine oxidase and peroxidase were immobilized on different preactivated membranes which were subsequently mounted onto the tip of a fibre-optic bundle. The H202 generated by the reaction of hypoxanthine and xa

## A chemiluminescence sensor for cyanide combined with a flow-injection system is presented in this paper. Based on the chemiluminescence reaction of luminol immobilized on Amberlyst A-27 anion-exchange resin and copper ion immobilized on D1.51 large-pore cation-exchange resin with CN-in alkaline

A fiber-optic biosensor based on the immobilization of sulphite oxidase and peroxidase on different membranes, and subsequent detection of luminol chemiluminescence has been developed. The response was linear in the concentration ranges of 1 to 100 /\_LM and 3.2 to 320 PM, with a detection limit (si

We report a label-free, aptamer-based chemiluminescent biosensor. The biosensor relies upon the catalytic activity of unmodified gold nanoparticles (AuNPs) on the luminol-H 2 O 2 chemiluminescence (CL) reaction, and the interaction of unmodified AuNPs with the aptamer. The unmodified AuNPs can effec