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Simpler and faster quartz crystal microbalance for macromolecule detection using fixed frequency drive

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journal contribution
posted on 2022-02-08, 15:36 authored by Arnab Guha, Niklas Sandström, Victor P Ostanin, David Klenerman, Sourav GhoshSourav Ghosh
Despite advancements in analytical technologies, their complexity and cost have largely restricted their application in scalable online or multiplexed measurements. Here we report a quartz crystal resonator (QCR)-based method for detection of macromolecules that allows immensely simpler and faster measurements by employing for the first time a fixed frequency drive (FFD) and analytical expressions of acoustic parameters. Using human immunoglobulin E (hIgE) as an exemplar macromolecule and an anti-hIgE aptamer functionalised on a QCR, quantitative accuracy was benchmarked against the traditional impedance analysis method. The ability of FFD to capture data over longer observation periods at significantly higher acquisition rates at a fixed amplitude showed improvement in the QCR’s sensitivity and specificity of transduction. The foundations for low-cost and low-power online integration and large-scale multiplexability are also discussed.

Funding

Tackling Antimicrobial Resistance: An Interdisciplinary Approach

Engineering and Physical Sciences Research Council

Find out more...

Feasibility study of a novel acousto-optical technique for rapid multiplexed bacterial detection EP/M027341/1

History

School

  • Mechanical, Electrical and Manufacturing Engineering

Published in

Sensors and Actuators B: Chemical

Volume

358

Publisher

Elsevier BV

Version

  • AM (Accepted Manuscript)

Rights holder

© Elsevier

Publisher statement

This paper was accepted for publication in the journal Sensors and Actuators B: Chemical and the definitive published version is available at https://doi.org/10.1016/j.snb.2022.131442

Acceptance date

2022-01-17

Publication date

2022-02-04

Copyright date

2022

ISSN

0925-4005

Language

  • en

Depositor

Dr Sourav Ghosh. Deposit date: 8 February 2022

Article number

131442

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