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Diamond surface engineering for molecular sensing with nitrogen—vacancy centers

Erika Hissong, Konstantin Herb, Laura A. Vӧlker, William S. Huxter, Christian L. Degen, John M. Abendroth

2022Journal of Materials Chemistry C96 citationsDOIOpen Access PDF

Abstract

10 nm deep). Moreover, applications in the chemical sciences require methods for covalent bonding of target molecules to diamond with robust control over density, orientation, and binding configuration. This forward-looking Review provides a survey of the rapidly converging fields of diamond surface science and NV-center physics, highlighting their combined potential for quantum sensing of molecules. We outline the diamond surface properties that are advantageous for NV-sensing applications, and discuss strategies to mitigate deleterious effects while simultaneously providing avenues for chemical attachment. Finally, we present an outlook on emerging applications in which the unprecedented sensitivity and spatial resolution of NV-based sensing could provide unique insight into chemically functionalized surfaces at the single-molecule level.

Topics & Concepts

Materials scienceDiamondVacancy defectNitrogenSurface engineeringNanotechnologySurface (topology)CrystallographyComposite materialOrganic chemistryChemistryGeometryMathematicsDiamond and Carbon-based Materials ResearchAnalytical Chemistry and SensorsCarbon Nanotubes in Composites
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