Journal
BIOSENSORS & BIOELECTRONICS
Volume 102, Issue -, Pages 425-431Publisher
ELSEVIER ADVANCED TECHNOLOGY
DOI: 10.1016/j.bios.2017.11.052
Keywords
Electrical resistance biosensor; Binary nanoparticle-decorated carbon; nanotubes; DNA detection; Influenza virus; Norovirus; Magnetically deposited sensing channel
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Funding
- Japan Society for the Promotion of Science (JSPS) Postdoctoral Fellowship for Overseas Researcher [16F16361]
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Nanoparticle (NP)-carbon nanomaterial hybrid structures have garnered significant attention due to their synergistic effects. Based on their interesting properties, hybrid nanomaterial-based sensing platforms have been investigated to achieve high sensitivity and selectivity detection. In our study, binary-NP-decorated carbon nanotubes (bNP-CNTs) were successfully synthesized through a simple two-step method and applied as a bio-sensing platform. Gold (Au)/iron-oxide magnetic NP-decorated CNTs (Au/MNP-CNT) were used for influenza and norovirus DNA sensing channels. To demonstrate biosensing, first, the Au/MNP-CNTs were magnetically aligned on a Pt-interdigitated electrode, and then, a thiol-group-functionalized probe DNA was attached to the Au NP surface on the bNP-CNT hybrid structure through thiol chemistry. DNA hybridization between the target influenza or norovirus DNA and probe DNA was measured to monitor an electrical conductivity change of the Au/MNP-CNTs. Various concentrations of target DNA from 1 pM to 10 nM were monitored, and the limits of detection for influenza virus and norovirus were calculated to be approximately 8.4 pM and 8.8 pM, respectively. The specificity was confirmed using different mismatched DNA sequences, showing high specificity. Therefore, this Au/MNP-CNT-based DNA sensing system exhibited excellent detection potential, and such hybrid materials could be universally applied as a highly sensitive and selective biosensing system.
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