Capability of parasulfonato calix[6]arene, as an anion dopant, and organic solvents in enhancing the sensitivity and loading of glucose oxidase (GOx) on polypyrrole film in a biosensor: A comparative study

摘要

In this study, the effects of two solvents (acetonitrile and water) and an anion dopant (para sulfonato calix[6]arene ((C[6]S)~(-6))), on the manufacturing and properties of a polypyrrole (Ppy)-based, glucose oxidase amperometric biosensor were studied. Pyrrole was polymerized using galvanostatic mode in two different solvents, and the effect of (C[6]S)~(-6) was studied in aqueous solution. The morphology of the obtained polypyrrole films was studied by scanning electron microscopy (SEM). Glucose oxidase (GOx) was adsorbed on the Ppy films via cross-linking method. Then the amperometric responses of the Pt/Ppy/GOx electrodes were measured using the amperometric method at the potential of 0.7V in steps of adding a glucose solution to a potassium phosphate buffer. We found that acetonitrile and (C[6]S)~(-6) increase the sensitivity of the enzyme electrode up to 79.30μAM~(-1)cm~(-2) in comparison with 31.60μAM~(-1)cm~(-2) for the electrode synthesized in calixarene free aqueous solvent. Also (C[6]S)~(-6) has the main role in preventing leaching the enzyme from the electrode. This fact increases loading of the enzyme and stability of the biosensor. So that the steady state current density of the aforementioned electrode increases linearly with increasing glucose concentration up to 190mM. Whereas the linearity was observed up to 61mM and 80mM for the electrodes made using calixarene free acetonitrile and aqueous solutions, respectively.