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NFC-enabled photothermal-based microfluidic paper analytical device for glucose detection.

Authors :
Khachornsakkul K
Del-Rio-Ruiz R
Asci C
Sonkusale S
Source :
The Analyst [Analyst] 2024 Jul 08; Vol. 149 (14), pp. 3756-3764. Date of Electronic Publication: 2024 Jul 08.
Publication Year :
2024

Abstract

This study introduces the development of a photothermal-based microfluidic paper analytical device (PT-µPAD) integrated with near-field communication (NFC) technology and smartphone readout for enzyme-free glucose quantification in human samples. With the properties of gold nanoparticles (AuNPs) both as a nanozyme and as a photothermal substrate, there is no need for costly reagents like enzymes or a readout instrumentation for the selective and sensitive detection of glucose. In PT-µPADs, AuNPs are etched by hydrogen peroxide (H <subscript>2</subscript> O <subscript>2</subscript> ) generated from glucose catalysis. Photothermal detection from the plasmonic heating of these AuNPs when illuminated by a 533nm LED light source is achieved by inserting the PT-µPAD sensor into a portable NFC platform suitable for smartphone readout. Temperature variation is directly proportional to the glucose concentration. After optimization, we acquired a linear range between 5.0 and 20.0 µmol L <superscript>-1</superscript> ( R <superscript>2</superscript> = 0.9967) and a limit of detection (LOD) of 25.0 nmol L <superscript>-1</superscript> for glucose. Additionally, while our sensor does not utilize any enzyme, it is remarkably selective to glucose with no effects from interferences. Recovery studies in various human control samples indicated a range of 99.73-102.66% with the highest RSD of 3.53%, making it highly accurate and precise. Moreover, our method is more sensitive than other methods relying on conventional µPADs for glucose sensing. By integrating the potential benefits of microfluidics, nanomaterials as nanozymes, and NFC technology for wireless readout, our sensor demonstrates great promise as an accessible, affordable, and shelf-stable device for glucose quantification. Moreover, this concept can be extended to detect other molecules of interest as a point-of-care (POC) diagnostics device.

Details

Language :
English
ISSN :
1364-5528
Volume :
149
Issue :
14
Database :
MEDLINE
Journal :
The Analyst
Publication Type :
Academic Journal
Accession number :
38837236
Full Text :
https://doi.org/10.1039/d4an00506f