Pressure induced metallization of Germane

Recently reported superconductivity in lithium under pressure has renewed the interest on hydrogen and hydrogen-rich systems in the long standing quest for room temperature superconductivity. Although the required metallization of pure hydrogen cannot be achieved within correct experimental capabilities, chemical precompression exerted by heavier atoms in compounds with a large hydrogen content is expected to imply that lower pressures might be required to attain the metallic transition in these alloys. In this article, we present an ab initio analysis of pressure induced metallization of germane, as a particular case between group IVa hydrides. According to our calculations, metallization of germane is predicted to occur at an experimentally accessible pressure of around 70 GPa, which corresponds to a compression factor of 3.4.