Bonding Changes in Compressed Superhard Graphite
Carnegie Institution for Science · Brookhaven National Laboratory · +4 more institutions
Abstract
Compressed under ambient temperature, graphite undergoes a transition at approximately 17 gigapascals. The near K-edge spectroscopy of carbon using synchrotron x-ray inelastic scattering reveals that half of the pi-bonds between graphite layers convert to sigma-bonds, whereas the other half remain as pi-bonds in the high-pressure form. The x-ray diffraction pattern of the high-pressure form is consistent with a distorted graphite structure in which bridging carbon atoms between graphite layers pair and form sigma-bonds, whereas the nonbridging carbon atoms remain unpaired with pi-bonds. The high-pressure form is superhard, capable of indenting cubic-diamond single crystals.
Citation impact
- FWCI
- 7.74
- Percentile
- 100%
- References
- 15
Authors
10- WLWendy L. MaoCorresponding
Carnegie Institution for Science, Brookhaven National Laboratory, University of Chicago, Geophysical Laboratory
- HMHo‐kwang Mao
Carnegie Institution for Science, Brookhaven National Laboratory, University of Chicago, Geophysical Laboratory
- PJPeter J. Eng
Carnegie Institution for Science, Brookhaven National Laboratory, University of Chicago, Geophysical Laboratory
- TPThomas P. Trainor
University of Alaska Fairbanks, Carnegie Institution for Science, Brookhaven National Laboratory, University of Chicago, Geophysical Laboratory
- MNM. Newville
Carnegie Institution for Science, Brookhaven National Laboratory, University of Chicago, Geophysical Laboratory
Topics & keywords
- Graphite
- Diamond
- Crystallography
- Ambient pressure
- Carbon fibers
- Materials science
- Synchrotron
- Chemistry