ß-ZrNiD1-x (for x≈0.1, near the ß-γ phase boundary) was found to possess a triclinic P1(overline) structure as determined by high-resolution neutron power diffraction. This is very different from the widely accepted orthohombic and distorted orthorhombic Cmcm structures previously proposed. In contrast to the single type of D site associated with these latter structures, the true ß-ZrNiD1-x structure contains two crystallographically distinct interstitial D sites: Zr4Ni2 octahedral sites and Zr4 tetrahedral sites, alternately ordered along the a direction. From first-principles calculations, the total energy of the P1(overline) structure was found to be ≈0.24 eV per unit cell lower than Cmcm-symmetry ZrNiD and could be rationalized in terms of different D local-bonding configurations and metal-deuterium interactions. Resultant phonon calculations based on this structure were also consistnet with the measured neutron vibrational spectrum
