Issue 20, 2016

Counting vacancies and nitrogen-vacancy centers in detonation nanodiamond

Abstract

Detonation nanodiamond particles (DND) contain highly-stable nitrogen-vacancy (N-V) centers, making it important for quantum-optical and biotechnology applications. However, due to the small particle size, the N-V concentrations are believed to be intrinsically very low, spawning efforts to understand the formation of N-V centers and vacancies, and increase their concentration. Here we show that vacancies in DND can be detected and quantified using simulation-aided electron energy loss spectroscopy. Despite the small particle size, we find that vacancies exist at concentrations of about 1 at%. Based on this experimental finding, we use ab initio calculations to predict that about one fifth of vacancies in DND form N-V centers. The ability to directly detect and quantify vacancies in DND, and predict the corresponding N-V formation probability, has a significant impact to those emerging technologies where higher concentrations and better dispersion of N-V centres are critically required.

Graphical abstract: Counting vacancies and nitrogen-vacancy centers in detonation nanodiamond

Supplementary files

Article information

Article type
Communication
Submitted
05 Mar 2016
Accepted
21 Apr 2016
First published
28 Apr 2016
This article is Open Access
Creative Commons BY license

Nanoscale, 2016,8, 10548-10552

Counting vacancies and nitrogen-vacancy centers in detonation nanodiamond

S. L. Y. Chang, A. S. Barnard, C. Dwyer, C. B. Boothroyd, R. K. Hocking, E. Ōsawa and R. J. Nicholls, Nanoscale, 2016, 8, 10548 DOI: 10.1039/C6NR01888B

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