On the electrical activity of sp 2 -bonded grain boundaries in nanocrystalline diamond
- 1 June 1999
- journal article
- Published by IOP Publishing in Europhysics Letters
- Vol. 46 (5) , 671-677
- https://doi.org/10.1209/epl/i1999-00318-5
Abstract
By means of tight-binding molecular dynamics simulations we find that the ground-state atomic structure of a typical high-energy grain boundary in diamond is highiy disordered with a large fraction of sp2 bonded atoms. This structure gives rise to localised bands within the band gap. We describe how multiphonon assisted hopping conduction can arise from such electronic states in high-energy grain boundaries, giving in turn a basis for the experimentally observed conductivity and electron field emission in nanocrystalline diamond. Simulated electron-energy-loss spectra indicate correlations between the disordered atomic structure and features of the electronic structure.Keywords
This publication has 25 references indexed in Scilit:
- Atomic and electronic structure of diamond grain boundaries analyzed by HRTEM and EELSThin Solid Films, 1998
- Complementary application of electron microscopy and micro-Raman spectroscopy for microstructure, stress, and bonding defect investigation of heteroepitaxial chemical vapor deposited diamond filmsJournal of Applied Physics, 1998
- Nanocrystalline diamond films: transmission electron microscopy and Raman spectroscopy characterizationDiamond and Related Materials, 1997
- Friction and wear properties of smooth diamond films grown in fullerene + argon plasmasDiamond and Related Materials, 1996
- Defect-enhanced electron field emission from chemical vapor deposited diamondJournal of Applied Physics, 1995
- Fullerenes as precursors for diamond film growth without hydrogen or oxygen additionsApplied Physics Letters, 1994
- Buckyball microwave plasmas: Fragmentation and diamond-film growthJournal of Applied Physics, 1994
- Analysis of chemical-vapour-deposited diamond grain boundaries using transmission electron microscopy and parallel electron energy loss spectroscopy in a scanning transmission electron microscopeDiamond and Related Materials, 1993
- Growth defects in diamond filmsJournal of Materials Research, 1993
- Dislocations, twins, and grain boundaries in CVD diamond thin films: Atomic structure and propertiesJournal of Materials Research, 1990