1301.0781 (Liliana Hromadová et al.)

Monday, January 7, 2013

1301.0781 (Liliana Hromadová et al.)

Structure change, layer sliding, and metallization in high-pressure
MoS$_{2}$ [PDF]

Liliana Hromadová, Roman Martoňák, Erio Tosatti

Based on ab initio calculations and metadynamics simulations, we predict that 2H-MoS$_2$, a layered insulator, will metallize under pressures in excess of 20-30 GPa. In the same pressure range, simulations and enthalpy optimization predict a structural transition. Free mutual sliding of layers takes place at this transition, the original 2H$_c$ stacking changing to a 2H$_a$ stacking typical of 2H-NbSe$_2$, an event explaining for the first time previously mysterious X-ray diffraction and Raman spectroscopy data. Phonon and electron phonon calculations suggest that pristine MoS$_2$, once metallized, will require ultrahigh pressures in order to develop superconductivity.

View original: http://arxiv.org/abs/1301.0781

cond-mat.mtrl-sci - Materials Science

Monday, January 7, 2013

1301.0781 (Liliana Hromadová et al.)

Structure change, layer sliding, and metallization in high-pressure
MoS$_{2}$ [PDF]

No comments:

Post a Comment

Total Pageviews (last 30 days)

Monday, January 7, 2013

1301.0781 (Liliana Hromadová et al.)

Structure change, layer sliding, and metallization in high-pressure MoS$_{2}$ [PDF]

No comments:

Post a Comment

Total Pageviews (last 30 days)

Structure change, layer sliding, and metallization in high-pressure
MoS$_{2}$ [PDF]