We present a theoretical study on the behavior under pressure of the two hypothetical C46 and Li8C46 type-I carbon clathrates in order to bring new informations concerning their synthesis. Using \textit{ab initio} calculations, we have explored the energetic and structural properties under pressure of these two carbon based cage-like materials. These low-density meta-stable phases show large negative pressure transitions compared to diamond which represent a serious obstacle for their synthesis. However, we evidence that a minimum energy barrier can be reached close to 40 GPa, suggesting that the synthesis of the Li-clathrate under extreme conditions of pressure and temperature may be possible. Electronic band structure with related density of states behavior under pressure as well as the dependence of the active Raman modes with pressure are also examined.
@article{arxiv.0711.2396,
title = {First-principles study of lithium-doped carbon clathrates under pressure},
author = {Nicolas Rey and Alfonso Munoz and Placida Rodriguez-Hernandez and Alfonso San Miguel},
journal= {arXiv preprint arXiv:0711.2396},
year = {2009}
}