This work illustrates how polyamide nanofibrous membranes, prepared by the electrospinning process, can act as a new type of biosensor element. The sensing unit is based on a glassy carbon electrode coated with polyamide nanofibrous membranes, in which glucose oxidase is covalently tethered. The work is carried out by means of transient electrochemical techniques, such as cyclic voltammetry and amperometry, in which ferrocene methanol was employed as mediator. The results show that nanofibrous membranes are an excellent support for the development of biosensors thanks to their high-surface to volume ratio, high porosity and permeability of the cosubstrate and minimal effect on both the biocatalytic kinetics and the selectivity of the biorecognition event. The optimization, characterization, and attractive performance of the nanofibrous biosensor are reported in connection with the detection of glucose in a variety of food beverages.
Nylon nanofibrous membrane for mediated glucose biosensing / M.M. Scampicchio, A. Arecchi, N. Lawrence, S. Mannino. - In: SENSORS AND ACTUATORS. B, CHEMICAL. - ISSN 0925-4005. - 145:1(2010 Mar), pp. 394-397. [10.1016/j.snb.2009.12.042]
Nylon nanofibrous membrane for mediated glucose biosensing
M.M. ScampicchioPrimo
;A. ArecchiSecondo
;S. ManninoUltimo
2010
Abstract
This work illustrates how polyamide nanofibrous membranes, prepared by the electrospinning process, can act as a new type of biosensor element. The sensing unit is based on a glassy carbon electrode coated with polyamide nanofibrous membranes, in which glucose oxidase is covalently tethered. The work is carried out by means of transient electrochemical techniques, such as cyclic voltammetry and amperometry, in which ferrocene methanol was employed as mediator. The results show that nanofibrous membranes are an excellent support for the development of biosensors thanks to their high-surface to volume ratio, high porosity and permeability of the cosubstrate and minimal effect on both the biocatalytic kinetics and the selectivity of the biorecognition event. The optimization, characterization, and attractive performance of the nanofibrous biosensor are reported in connection with the detection of glucose in a variety of food beverages.
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