Advanced strategies for improving the analytical performance of Pt-based nonenzymatic electrochemical glucose sensors: a minireview

Enormous demands for blood sugar management, food and pharmaceutical quality control, bioprocess monitoring, and environmental pollution inspection have encouraged the fabrication of high-performance sensing platforms for the detection of glucose in various matrices. In comparison with traditional e...

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Bibliographic Details
Published in:Analytical methods 2016-01, Vol.8 (8), p.1755-1764
Main Authors: Niu, X. H, Shi, L. B, Zhao, H. L, Lan, M. B
Format: Article
Language:English
Subjects:
Demand
Devices
Glucose
Mathematical analysis
Platinum
Quality control
Sensors
Strategy
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Summary:Enormous demands for blood sugar management, food and pharmaceutical quality control, bioprocess monitoring, and environmental pollution inspection have encouraged the fabrication of high-performance sensing platforms for the detection of glucose in various matrices. In comparison with traditional enzyme-based analytical devices, nonenzymatic electrochemical glucose sensors have attracted special interest and the attention of analysts in the past decade due to their unique advantages; however, the underlying drawbacks of detection performance still seriously restrict their commercial development and large-scale application. This minireview clarifies the intrinsic bottlenecks of glucose amperometric analysis on Pt-based enzymeless interfaces, and emphasis is placed on discussing the advanced strategies utilized to enhance the analytical properties of Pt-based enzyme-free electrochemical glucose sensors. Advanced strategies for improving the analytical performance of Pt-based nonenzymatic electrochemical glucose sensors are discussed.
ISSN:1759-9660
1759-9679
DOI:10.1039/c5ay03181h