Mengming Michael Dong, Hongli Hu, Shujiang Ding, Y. Duan, Chenhui Cui
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引用次数: 0
摘要
在还原氧化石墨烯(CoFe2O4@rGO)上生长了由CoFe2O4纳米片组成的非酶促葡萄糖传感纳米复合材料。表征结果表明,CoFe2O4纳米片垂直生长在还原氧化石墨烯衬底上,形成多孔网络结构。其次,利用电化学工作站对CoFe2O4@rGO的葡萄糖检测性能进行研究。传感试验表明,当无水乙醇与去离子水的体积比为10 ml: 30 ml时,制备的CoFe2O4@rGO具有较好的葡萄糖检测性能。其线性检测范围为0.5 mM ~ 10 mM和10 mM ~ 35 mM,灵敏度分别达到50.5 μAmM−1cm−2和143.6 μAmM−1cm−2,明显优于已有报道的非酶葡萄糖传感材料。此外,CoFe2O4@rGO具有良好的抗干扰性和稳定性。
Non-enzymatic glucose sensor fabricated by CoFe2O4 nanosheets grown on Reduced Graphene Oxide
ABSTRACT A non-enzymatic glucose sensing nanocomposite comprised of CoFe2O4 nanosheets grown on Reduced Graphene Oxide (CoFe2O4@rGO) has been triumphantly prepared by a facile co-precipitation process. The characterisation results reveal that the CoFe2O4 nanosheets are vertically grown on the rGO substrate and form a porous network structure. Next, Electrochemical workstation is applied to study the glucose detection performance of the CoFe2O4@rGO. The sensing tests exhibit that when the volume ratio of anhydrous ethanol and deionised water is 10 ml: 30 ml, the fabricated CoFe2O4@rGO has better glucose detection performance. Its linear detection ranges from 0.5 mM – 10 mM and 10 mM – 35 mM, and the sensitivity reaches 50.5 μAmM−1cm−2 and 143.6 μAmM−1cm−2 respectively, which is significantly better than the previously reported non-enzyme glucose sensing materials. Furthermore, the CoFe2O4@rGO has good anti-interference and stability.
期刊介绍:
Materials Technology: Advanced Performance Materials provides an international medium for the communication of progress in the field of functional materials (advanced materials in which composition, structure and surface are functionalised to confer specific, applications-oriented properties). The focus is on materials for biomedical, electronic, photonic and energy applications. Contributions should address the physical, chemical, or engineering sciences that underpin the design and application of these materials. The scientific and engineering aspects may include processing and structural characterisation from the micro- to nanoscale to achieve specific functionality.
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