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  • Title: Structural phase transformations of Mg(3)N(2) at high pressure: experimental and theoretical studies.
    Author: Hao J, Li Y, Zhou Q, Liu D, Li M, Li F, Lei W, Chen X, Ma Y, Cui Q, Zou G, Liu J, Li X.
    Journal: Inorg Chem; 2009 Oct 19; 48(20):9737-41. PubMed ID: 19754099.
    Abstract:
    The structural behavior of Mg(3)N(2) has been investigated up to 40.7 GPa at room temperature by means of angle-dispersive X-ray diffraction. A reversible, first-order structural phase transition from the ambient cubic phase (Ia3) to a high-pressure monoclinic phase (C2/m) is found to start at approximately 20.6 GPa and complete at approximately 32.5 GPa for the first time. The equation of state determined from our experiments yields bulk moduli of 110.7(2) and 171.5(1) GPa for the cubic and monoclinic phases, respectively, indicating higher incompressibility of the high-pressure phase of Mg(3)N(2). First-principles calculations reproduced the phase stability and transition pressure determined in our experiment. In addition, a second phase transition from the monoclinic phase to a hexagonal phase (P3m(1)) was predicted around 67 GPa for Mg(3)N(2). The electronic band structures of three phases of Mg(3)N(2) are also calculated and discussed.
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