Nanocages-augmented aligned polyaniline nanowires as unique platform for electrochemical non-enzymatic glucose biosensor

Abstract

Non-enzymatic glucose biosensor was developed by utilizing the electrochemically grown nanocages-augmented polyaniline nanowires (NCa-PANI NWs) on silicon (Si) substrate. The NCa-PANI NWs were comprehensively analyzed in terms of the composition, optical, structural and the morphological properties. The grown NCa-PANI NWs were distributed uniformly on the entire surface of Si substrate, which confirmed the formation of highly dense NCa-PANI NWs networks during the electrochemical oxidation. A series of sensing performances for NCa-PANI NWs electrode were investigated by current (I)–voltage (V), cyclic voltammetry (CV) and amperometry measurements. The sensing results revealed that fabricated non-enzymatic sensor showed an excellent response to glucose with a stable, reliable, and high sensitivity of ∼156.4mAmM−1cm−2, good detection limit of ∼0.657μM with correlation coefficient (R) of ∼0.99493. The fabricated glucose sensor based on NCa-PANI NWs electrode exhibited significant electrochemical stability, good reproducibility and the selectivity.