Theoretical Study of Chromium and Nickel-Related Luminescence Centers in Molecular-Sized Nanodiamonds

journal article in Web of Science

English

The present work is focused on explanation and description of recently discovered chromium and nickel-related luminescence centers in molecular-sized nanodiamond (ND) particles. Chromium and silicon-nickel luminescence centers can be leading candidates for future quantum devices thanks to their room temperature operation, photostability, narrow bandwidth and short lifetime. On the other hand such nanoparticles can be used for bio labelling. Here, we used Density Functional Theory (DFT) and time - dependent DFT (TD-DFT) techniques to investigate the defects’ geometrical parameters, absorption spectra, charge and spin density distribution - we show connections between chemical and optical properties of investigated defects in nanodiamond particles. By fundamental interpretation of measured chromium and silicon-nickel nanodiamond luminescence centers specificities we suggest proper technological steps towards nanodiamonds future applications.

molecular-sized nanodiamond; transition metals diamond impurities; Density Functional Theory; geometrical parameters

Alexander Kovalenko, Stanislav Záliš, Petr Ashcheulov, Ivo Kraus, Irena Kratochvílová, Jiří Pavluch

2015

1. 9. 2015

Elsevier

Netherlands

0925-9635

Diamond and Related Materials

58

Kingdom of the Netherlands

122

128

7

http://www.sciencedirect.com/science/article/pii/S0925963515300066