Publication: All-Optical Sensing of a Single-Molecule Electron Spin
Open/View Files
Date
2014
Published Version
Journal Title
Journal ISSN
Volume Title
Publisher
American Chemical Society (ACS)
The Harvard community has made this article openly available. Please share how this access benefits you.
Citation
Sushkov, A. O., N. Chisholm, I. Lovchinsky, M. Kubo, P. K. Lo, S. D. Bennett, D. Hunger, et al. 2014. “All-Optical Sensing of a Single-Molecule Electron Spin.” Nano Lett. 14 (11) (November 12): 6443–6448. doi:10.1021/nl502988n.
Research Data
Abstract
We demonstrate an all-optical method for magnetic sensing of individual molecules in ambient conditions at room temperature. Our approach is based on shallow nitrogen-vacancy (NV) centers near the surface of a diamond crystal, which we use to detect single paramagnetic molecules covalently attached to the diamond surface. The manipulation and readout of the NV centers is all-optical and provides a sensitive probe of the magnetic field fluctuations stemming from the dynamics of the electronic spins of the attached molecules. As a specific example, we demonstrate detection of a single paramagnetic molecule containing a gadolinium (Gd3+) ion. We confirm single-molecule resolution using optical fluorescence and atomic force microscopy to colocalize one NV center and one Gd3+-containing molecule. Possible applications include nanoscale and in vivo magnetic spectroscopy and imaging of individual molecules.
Description
Other Available Sources
Keywords
Nitrogen vacancy center, diamond, single-molecule spin, magnetometry, all-optical
Terms of Use
This article is made available under the terms and conditions applicable to Open Access Policy Articles (OAP), as set forth at Terms of Service