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Structural and Electronic Properties of Isolated Nanodiamonds: A Theoretical Perspective

Conference ·
;

Nanometer sized diamond has been found in meteorites, proto-planetary nebulae and interstellar dusts, as well as in residues of detonation and in diamond films. Remarkably, the size distribution of diamond nanoparticles appears to be peaked around 2-5 nm, and to be largely independent of preparation conditions. Using ab-initio calculations, we have shown that in this size range nanodiamond has a fullerene-like surface and, unlike silicon and germanium, exhibit very weak quantum confinement effects. We called these carbon nanoparticles bucky-diamonds: their atomic structure, predicted by simulations, is consistent with many experimental findings. In addition, we carried out calculations of the stability of nanodiamond which provided a unifying explanation of its size distribution in extra-terrestrial samples, and in ultra-crystalline diamond films. Here we present a summary of our theoretical results and we briefly outline work in progress on doping of nanodiamond with nitrogen.

Research Organization:
Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States)
Sponsoring Organization:
USDOE
DOE Contract Number:
W-7405-ENG-48
OSTI ID:
15014674
Report Number(s):
UCRL-PROC-207103; TRN: US200802%%1443
Resource Relation:
Journal Volume: 192; Conference: Presented at: UltraNanoCrystalline Diamond Conference, St. Petersburg , Russia, Jun 05 - Jun 09, 2004
Country of Publication:
United States
Language:
English

References (13)

Quantum Confinement Effect in Diamond Nanocrystals Studied by X-Ray-Absorption Spectroscopy June 1999
Ultradispersity of diamond at the nanoscale November 2003
Isolation and Structure of Higher Diamondoids, Nanometer-Sized Diamond Molecules November 2002
Comment on “Quantum Confinement Effect in Diamond Nanocrystals Studied by X-Ray-Absorption Spectroscopy” June 2000
Diamonds in detonation soot June 1988
A soft X-ray absorption study of nanodiamond films prepared by hot-filament chemical vapor deposition April 2003
Interstellar diamonds in meteorites March 1987
The structure of diamond nanoclusters April 1999
DNA-modified nanocrystalline diamond thin-films as stable, biologically active substrates November 2002
Ultrananocrystalline diamond thin films for MEMS and moving mechanical assembly devices November 2001
Possible in situ formation of meteoritic nanodiamonds in the early Solar System July 2002
Quantum Confinement and Fullerenelike Surface Reconstructions in Nanodiamonds January 2003
Microstructure of ultrananocrystalline diamond films grown by microwave Ar–CH4 plasma chemical vapor deposition with or without added H2 July 2001

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Related Subjects

36 MATERIALS SCIENCE
CARBON
CONFINEMENT
DIAMONDS
DUSTS
GERMANIUM
METEORITES
NEBULAE
NITROGEN
RESIDUES
SILICON
STABILITY