H2O ice as superconductor? yes, superconducting water !

We have recently investigated the possibility of achieve high-temperature superconductivity in hydrides under pressure by inducing metallization of otherwise insulating phases through doping, a path previously used to render standard semiconductors superconducting at ambient pressure. Following this idea, we study H_2O, which is one of the most abundant and well-studied substances in the universe! We identify nitrogen as the most likely and promising substitution/dopant. We show that for realistic levels of doping of a few percent, the phase X of ice becomes superconducting with a critical temperature of about 60 K at 150 GPa. In view of the vast number of hydrides that are strongly covalent bonded, but that remain insulating until rather large pressures.  This could open new search paths in the quest towards the room-temperature superconductivity. Link to acces to the arXiv on-line version.


The image shows the water molecule at ambient condition of pressure, at high pressure and low temperature. The crystal of water transform to a symmetric proton phase above 70 GPa. We use this phase, which is covalently bonded with to hole dope it with nitrogen at different concentrations.