И. Силдос scite author profile

Doping of carbon nanoparticles with impurity atoms is central to their application. However, doping has proven elusive for very small carbon nanoparticles because of their limited availability and a lack of fundamental understanding of impurity stability in such nanostructures. Here, we show that isolated diamond nanoparticles as small as 1.6 nm, comprising only ∼400 carbon atoms, are capable of housing stable photoluminescent colour centres, namely the silicon vacancy (SiV). Surprisingly, fluorescence from SiVs is stable over time, and few or only single colour centres are found per nanocrystal. We also observe size-dependent SiV emission supported by quantum-chemical simulation of SiV energy levels in small nanodiamonds. Our work opens the way to investigating the physics and chemistry of molecular-sized cubic carbon clusters and promises the application of ultrasmall non-perturbative fluorescent nanoparticles as markers in microscopy and sensing.

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Nitrogen and Luminescent Nitrogen‐Vacancy Defects in Detonation Nanodiamond

Власов¹,

Shenderova²,

Turner³

et al. 2010

Small

112

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An efficient method to investigate the microstructure and spatial distribution of nitrogen and nitrogen-vacancy (N-V) defects in detonation nanodiamond (DND) with primary particle sizes ranging from approximately 3 to 50 nm is presented. Detailed analysis reveals atomic nitrogen concentrations as high as 3 at% in 50% of diamond primary particles with sizes smaller than 6 nm. A non-uniform distribution of nitrogen within larger primary DND particles is also presented, indicating a preference for location within the defective central part or at twin boundaries. A photoluminescence (PL) spectrum with well-pronounced zero-phonon lines related to the N-V centers is demonstrated for the first time for electron-irradiated and annealed DND particles at continuous laser excitation. Combined Raman and PL analysis of DND crystallites dispersed on a Si substrate leads to the conclusion that the observed N-V luminescence originates from primary particles with sizes exceeding 30 nm. These findings demonstrate that by manipulation of the size/nitrogen content in DND there are prospects for mass production of nanodiamond photoemitters based on bright and stable luminescence from nitrogen-related defects.

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Thin films of HfO2 and ZrO2 as potential scintillators

Kirm

Aarik

Jürgens

et al. 2005

Nuclear Instruments and Methods in Physics Research Section A:

125

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Zero-Phonon Lines: The Effect of a Strong Softening of Elastic Springs in the Excited State

Hizhnyakov

Kaasik

Силдос

2002

phys. stat. sol. (b)

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PACS: 63.20.Pw; 78.20.Ci The optical dephasing, caused by a quadratic interaction with acoustic phonons, is studied on the basis of the nonperturbative theory. The effect of a strong weakening of the elastic springs on the electronic transition is studied. It is found that, if the weakening brings the system close to the dynamical instability, then the usual / T 7 dependence of the homogeneous width of a zero-phonon line (ZPL) is replaced by the / T 3 dependence in a broad temperature interval. An equation is derived which describes the additional broadening of a ZPL caused by the dynamical instability of the final state. The model explains the temperature broadening and shift of the zero-phonon lines of some nitrogen-containing centers in diamond crystals.

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И. Силдос

Raman scattering in nanosized nickel oxide NiO

Molecular-sized fluorescent nanodiamonds

Nitrogen and Luminescent Nitrogen‐Vacancy Defects in Detonation Nanodiamond

Thin films of HfO2 and ZrO2 as potential scintillators

Zero-Phonon Lines: The Effect of a Strong Softening of Elastic Springs in the Excited State

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