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Glass nano/micron pipette-based ion current rectification sensing technology for single cell/ analysis
Glass nano/micron pipettes, owing to their easy preparation, unique confined space at the tip, and modifiable inner surface of the tip, can capture the ion current signal caused by a single entity, making them widely used in the construction of highly sensitive and highly selective electrochemical s...
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Published in: | Analyst (London) 2024-10, Vol.149 (2), p.4981-4996 |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | |
Online Access: | Get full text |
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Summary: | Glass nano/micron pipettes, owing to their easy preparation, unique confined space at the tip, and modifiable inner surface of the tip, can capture the ion current signal caused by a single entity, making them widely used in the construction of highly sensitive and highly selective electrochemical sensors for single entity analysis. Compared with other solid-state nanopores, their conical nano-tip causes less damage to cells when inserted into them, thereby becoming a powerful tool for the
in situ
analysis of important substances in cells. However, glass nanopipettes have some shortcomings, such as poor mechanical properties, difficulty in precise preparation (aperture less than 50 nm), and easy blockage during complex real sample detection, limiting their practicability. Therefore, in recent years, researchers have conducted a series of studies on glass micropipettes. Ionic current rectification technology is a novel electrochemical analysis technique. Compared with traditional electrochemical analysis methods, it does not generate redox products during the detection process; therefore, it can not only be used for the determination of non-electrochemically active substances, but also causes less damage to the cell/living body
in situ
analysis, becoming a powerful analysis technology for the
in situ
analysis of cells/
in vivo
in recent years. In this review, we summarize the preparation and functionalization of glass nano/micron pipettes and introduce the sensing mechanisms of two electrochemical sensing platforms constructed using glass nano/micron pipette-based ion current rectification sensing technology as well as their applications in single cell/
in vivo
analysis, existing problems, and future prospects.
The review provides a detailed introduction to the sensing mechanisms of ion current rectification sensing technology based on glass nano/micron pipette, as well as their applications, existing problems, and challenges in cells/
in vivo
analysis. |
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ISSN: | 0003-2654 1364-5528 |
DOI: | 10.1039/d4an00899e |