Nitrogen Terminated Diamond
Access Status
Fulltext not available
Authors
Stacey, A.
O'Donnell, Kane
Chou, J.
Schenk, A.
Tadich, A.
Dontschuk, N.
Cervenka, J.
Pakes, C.
Gali, A.
Hoffman, A.
Prawer, S.
Date
2015Type
Journal Article
Metadata
Show full item recordCitation
Stacey, A. and O'Donnell, K. and Chou, J. and Schenk, A. and Tadich, A. and Dontschuk, N. and Cervenka, J. et al. 2015. Nitrogen Terminated Diamond. Advanced Materials Interfaces. 2 (10): Article ID 1500079.
Source Title
Advanced Materials Interfaces
School
Department of Physics and Astronomy
Collection
Abstract
Diamond surface termination with substitutional nitrogen is reported, leading to the formation of a stable surface which is essentially clear of sub-band surface states and has a positive electron affinity. This is predicted to be an ideal environment for near-surface nitrogen-vacancy centers in diamond and may enable magnetic and quantum sensing breakthroughs with these devices.
Related items
Showing items related by title, author, creator and subject.
-
McAtee, Brendon Kynnie (2003)Remote sensing of land surface temperature (LST) is a complex task. From a satellite-based perspective the radiative properties of the land surface and the atmosphere are inextricably linked. Knowledge of both is required ...
-
Chaugule, V.; Narayanaswamy, Ramesh; Lucey, Anthony; Narayanan, V.; Jewkes, J. (2018)Jet impingement is widely used for forced-convection heat transfer applications and knowledge about its flow structure and heat transfer rate on a static surface are well established. However, the characteristics of jet ...
-
Skomurski, F.; Ewing, R.; Rohl, Andrew; Gale, Julian; Becker, U. (2006)To evaluate the stability, potential reactivity, and relaxation mechanisms on different uraninite surfaces, surface energy values were calculated and structural relaxation was determined for the (111), (110), and (100) ...