Bonding Changes in Compressed Superhard Graphite
Wendy L. Mao(Carnegie Institution for Science), Ho‐kwang Mao(Carnegie Institution for Science), Peter J. Eng(Carnegie Institution for Science), Thomas P. Trainor(University of Alaska Fairbanks), M. Newville(Carnegie Institution for Science), C.-C. Kao(Carnegie Institution for Science), Dion L. Heinz(Carnegie Institution for Science), Jinfu Shu(Carnegie Institution for Science), Yue Meng(Argonne National Laboratory), Russell J. Hemley(Carnegie Institution for Science)
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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.
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