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Magnetically Modulated Fluorescence of Nitrogen-Vacancy Centers in Nanodiamonds for Ultrasensitive Biomedical Analysis

Yuen Yung Hui, Oliver J. Chen, Hsin‐Hung Lin, Yu-Kai Su, Katherine Y. Chen, Chih-Yen Wang, Wesley Wei‐Wen Hsiao, Huan‐Cheng Chang

2021Analytical Chemistry47 citationsDOI

Abstract

The negatively charged nitrogen-vacancy center in fluorescent nanodiamonds (FNDs) is a point defect with unique magneto-optical properties. It emits far-red fluorescence at ∼700 nm, and its intensity can be magnetically modulated with a depth of more than 10% at a field strength of 30 mT. We have closely examined this property and illustrated its practical use in biomedicine by applying a periodic, time-varying magnetic field to FNDs deposited on a surface or dispersed in a solution with a lock-in detection method. We achieved selective and sensitive detection of 100 nm FNDs on a nitrocellulose membrane at a particle density of 0.04 ng/mm2 (or ∼2 × 104 particles/mm2) and in an aqueous solution with a particle concentration of 1 ng/mL (or ∼1 fM) in 10 s as the detection limits. The utility and versatility of the technique were demonstrated with an application to background-free detection of FNDs as reporters for FND-based lateral flow immunoassays as well as selective quantification of FNDs in tissue digests for in vivo studies.

Topics & Concepts

ChemistryFluorescenceNitrogen-vacancy centerDetection limitParticle (ecology)NanotechnologyAnalytical Chemistry (journal)ChromatographyOpticsMaterials scienceGeologyOrganic chemistryOceanographyPhysicsDiamondDiamond and Carbon-based Materials ResearchAnalytical chemistry methods developmentGraphene research and applications
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