一种可被可见光激发的 TiO 纳米片-g-CN 复合光电化学酶生物传感器。

A TiO nanosheet-g-CN composite photoelectrochemical enzyme biosensor excitable by visible irradiation.

机构信息

Institute of Environmental and Analytical Sciences, College of Chemistry and Chemical Engineering, Henan University, Kaifeng, Henan Province, 475004, PR China.

出版信息

Anal Chim Acta. 2017 Sep 1;984:86-95. doi: 10.1016/j.aca.2017.06.043. Epub 2017 Jun 30.

DOI:10.1016/j.aca.2017.06.043

PMID:28843572

Abstract

In this work, g-CN and TiO nanosheets were synergistically employed as a novel composite for developing a scaffold of a photoelectrochemical enzyme biosensor. In this way, we have improved the poor visible light excitation of TiO and retarded the photo-generated charge recombination on g-CN to achieve an enhanced response at the photoelectrochemical biosensor, compared to that generated by the corresponding biosensors consisting of each individual component. Using glucose oxidase as a model enzyme, the biosensor was demonstrated to show strong visible light activity towards the enzyme mediated glucose oxidation. We have also observed a 350% enhanced photocurrent compared to that at a g-CN based ITO electrode. In addition, the high specific surface area and excellent biocompatibility of TiO nanosheets have also positively contributed to the performance of the photoelectrochemical enzyme biosensor with a 0.05-16 mM linear range and a 0.01 mM glucose detection limit.

摘要

在这项工作中，g-CN 和 TiO 纳米片被协同用作一种新型复合材料，用于开发光电化学酶生物传感器的支架。通过这种方式，与由每个单独组件组成的相应生物传感器相比，我们提高了 TiO 的可见光激发不良和抑制了 g-CN 上光生电荷复合，从而在光电化学生物传感器中实现了增强的响应。使用葡萄糖氧化酶作为模型酶，该生物传感器表现出对酶介导的葡萄糖氧化的强可见光活性。与基于 g-CN 的 ITO 电极相比，我们还观察到光电流增强了 350%。此外，TiO 纳米片的高比表面积和优异的生物相容性也对光电化学酶生物传感器的性能产生了积极影响，其线性范围为 0.05-16 mM，葡萄糖检测限为 0.01 mM。

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一种可被可见光激发的 TiO 纳米片-g-CN 复合光电化学酶生物传感器。

A TiO nanosheet-g-CN composite photoelectrochemical enzyme biosensor excitable by visible irradiation.

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