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Home NEWS Science News Chemistry

Scientists develop novel biosensing-membrane for glucose detection and monitoring

Bioengineer by Bioengineer
June 14, 2023
in Chemistry
Reading Time: 2 mins read
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Schematic diagram of developing 3D mesoporous biosensing-membrane with neighborhood nanostructures as inspied by the structure of cytomembrane
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Glucose oxidase (GOx)-based biosensors have attracted much attention for their potential in rapid glucose detection and continuous monitoring, which are crucial for disease diagnosis and prevention, as well as for controllable production in sugar-making and fermentation processes.

Schematic diagram of developing 3D mesoporous biosensing-membrane with neighborhood nanostructures as inspied by the structure of cytomembrane

Credit: ZHANG Hao

Glucose oxidase (GOx)-based biosensors have attracted much attention for their potential in rapid glucose detection and continuous monitoring, which are crucial for disease diagnosis and prevention, as well as for controllable production in sugar-making and fermentation processes.

The glucose oxidase/electrocatalysts/electrode (GOx/ECs/electrode) cascade system serves as the core part of most glucose biosensing devices (both invasive and non-invasive). However, patterned assembly of these cascade sensing units remains challenging, thus limiting the attainment of high sensitivity and long-term stability.

Inspired by the structure of electron-transfer chains in the mitochondria, a research group led by Prof. WAN Yinhua from the Institute of Process Engineering (IPE) of the Chinese Academy of Sciences has developed a three-dimensional (3D) mesoporous biosensing-membrane with neighborhood nanostructures that shows excellent sensitivity and long-term stability.

The study was published in Advanced Functional Materials on June 13.

In preparing the biosensing-membranes, the researchers used tannic acid-3-aminopropyltriethoxysilane-Fe3+ (TA-APTES-Fe) ternary coating to properly assemble and adjacently confine Prussian blue (PB) and GOx in the 3D mesoporous carbon nanotube (CNT) membrane electrode.

“This strategy enhances the cascade sensing units with close proximity and extends the triple-phase boundary (TPB) from conventional 2D contact to 3D contact, which boosts the cascade reaction efficiency, improves the accessibility and availability of H2O2 toward the TPB, and increases the utilization of PB,” said Prof. LUO Jianquan from IPE.

Moreover, the spatially confined microenvironment stabilizes PB and GOx. The separation function of the CNT membrane further intensifies the sensing stability by in-situ removal of interferents from the analytes.

The as-prepared mesoporous biosensing-membrane exhibits good sensitivity and long-term stability with a negligible response drift for up to eight hours, thus outperforming the reported results.

“The multienzyme mimic functions of PB have been employed to imitate the ‘loosening-degradation’ membrane cleaning process, fully regenerating the fouled biosensing-membrane,” said Prof. WAN.

This work provides a novel design and operation strategy for biosensors, ensuring efficient, reliable, and stable sensing.



Journal

Advanced Functional Materials

DOI

10.1002/adfm.202303313

Article Title

3D Neighborhood Nanostructure Reinforces Biosensing Membrane

Article Publication Date

13-Jun-2023

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