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Electrospinning Synthesis of Porous CoWO 4 Nanofibers as an Ultrasensitive, Nonenzymatic, Hydrogen‐Peroxide‐Sensing Interface with Enhanced Electrocatalysis
Author(s) -
Liao ShengHui,
Lu ShiYu,
Bao ShuJuan,
Yu YaNan,
Yu Ling
Publication year - 2015
Publication title -
chemelectrochem
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.182
H-Index - 59
ISSN - 2196-0216
DOI - 10.1002/celc.201500280
Subject(s) - biosensor , electrospinning , nanomaterials , electrocatalyst , hydrogen peroxide , nanofiber , calcination , electrode , materials science , detection limit , nanotechnology , redox , linear range , electrochemistry , porosity , chemical engineering , chemistry , polymer , chromatography , catalysis , organic chemistry , composite material , engineering , metallurgy
In this work, porous WO 3 , Co 3 O 4 , and CoWO 4 nanofibers (NFs) were fabricated by using an electrospinning technique followed by high‐temperature calcination. The different NFs were used to modify biosensor electrodes and detect H 2 O 2 without the help of an enzyme. The electrochemical results indicated that the CoWO 4 NF‐based sensor presented a remarkable electrocatalytic activity towards H 2 O 2 oxidation, including lower redox potential, lower detection limit, fast response, as well as the widest linear range among our designed biosensors of this type. Furthermore, we found that the ideal test potential of a nonenzymatic biosensor is closely dependent on the composition of the detected electrode surface, and the test potential has a great effect on the detection linear range of nanomaterial‐based biosensors. The results of this work provide a new way to explore excellent nanomaterials for modifying nonenzymatic biosensor electrodes.