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AC Electroosmosis-Enhanced Nanoplasmofluidic Detection of Ultralow-Concentration Cytokine.

Citation
Song, Y., et al. “Ac Electroosmosis-Enhanced Nanoplasmofluidic Detection Of Ultralow-Concentration Cytokine.”. Nano Letters, pp. 2374-2380.
Center University of Michigan
Author Yujing Song, Pengyu Chen, Meng Ting Chung, Robert Nidetz, Younggeun Park, Zhenhui Liu, Walker McHugh, Timothy T Cornell, Jianping Fu, Katsuo Kurabayashi
Keywords AC electroosmosis, Nanorod biosensor, cytokine analysis, immunoassay, localized surface plasmon resonance
Abstract

Label-free, nanoparticle-based plasmonic optical biosensing, combined with device miniaturization and microarray integration, has emerged as a promising approach for rapid, multiplexed biomolecular analysis. However, limited sensitivity prevents the wide use of such integrated label-free nanoplasmonic biosensors in clinical and life science applications where low-abundance biomolecule detection is needed. Here, we present a nanoplasmofluidic device integrated with microelectrodes for rapid, label-free analysis of a low-abundance cell signaling protein, detected by AC electroosmosis-enhanced localized surface plasmon resonance (ACE-LSPR) biofunctional nanoparticle imaging. The ACE-LSPR device is constructed using both bottom-up and top-down sensor fabrication methods, allowing the seamless integration of antibody-conjugated gold nanorod (AuNR) biosensor arrays with microelectrodes on the same microfluidic platform. Applying an AC voltage to microelectrodes while scanning the scattering light intensity variation of the AuNR biosensors results in significantly enhanced biosensing performance. The AC electroosmosis (ACEO) based enhancement of the biosensor performance enables rapid (5-15 min) quantification of IL-1β, a pro-inflammatory cytokine biomarker, with a sensitivity down to 158.5 fg/mL (9.1 fM) for spiked samples in PBS and 1 pg/mL (58 fM) for diluted human serum. Together with the optimized detection sensitivity and speed, our study presents the first critical step toward the application of nanoplasmonic biosensing technology to immune status monitoring guided by low-abundance cytokine measurement.

Year of Publication
2017
Journal
Nano letters
Volume
17
Issue
4
Number of Pages
2374-2380
Date Published
12/2017
ISSN Number
1530-6992
DOI
10.1021/acs.nanolett.6b05313
Alternate Journal
Nano Lett.
PMID
28296413
PMCID
PMC5487264
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