Highly electrocatalytic biosensor based on Hemin@AuNPs/reduced graphene oxide/chitosan nanohybrids for non-enzymatic ultrasensitive detection of hydrogen peroxide in living cells

Abstract

A non-enzymatic and highly electrocatalytic H₂O₂ biosensor was proposed by using a novel electrode composed of hemin-capped biomineralized gold nanoparticles (Hem@AuNPs), reduced graphene oxide (rGO) and chitosan (CS). Owing to the excellent electrocatalytic activity of Hem@AuNPs and great conductivity of rGO, this developed biosensor is capable of ultrasensitive measuring H₂O₂ in real-time. In addition, the introduction of CS resulted in a film on the electrode, which can enhance the stability by protecting the biosensor from external disturbances. Taking advantages of the peroxidase-like activities of the nanohybrids, the developed electrode exhibited outstanding electrochemical performance toward H₂O₂ with high selectivity, fast response, superior sensitivity and good stability. More importantly, the lower determination limit of 9.3 nM and wider linear ranges of 5 orders of magnitude enable this biosensor to detect H₂O₂ releasing from living Hela cells accurately. This work provides tremendous potential for real-time monitoring the secretion of H₂O₂ in living cells.

Keywords: Biomineralization; Enzymatic-free assay; Gold nanoparticles; Hemin; Hydrogen peroxide; Living cell.