The crystal structure of a high-pressure phase of silane (SiH4), observed between 10 and 25 GPa, is solved using powder synchrotron x-ray diffraction and shown to be of the SnBr4 type. The phase is an insulating molecular solid with a monoclinic unit cell containing four tetrahedrally bonded molecules, space group P2(1)/c. Ab initio calculations show the SnBr4-type structure to be favored in this pressure range relative to other recently proposed structures. The fit of the pressure dependence of volume to the Birch-Murnagham equation of state gives the following parameters at ambient pressure if K-0(') is fixed to 4: V-0=250(9) A(3) and K-0=7.8(9) GPa for the experimental data, and V-0=255(2) A(3) and K-0=6.1(2) GPa for the data obtained from ab initio calculations.
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