Structural, Optical, and Electrical Properties of One-Dimensional Bis(Dimethylglyoximato)nickel(II), Ni(dmg)2 at High Pressure

By use of synchrotron radiation, powder X-ray diffraction of one-dimensional bis(dimethylglyoximato)nickel(II), Ni(dmg)2, has been studied at room temperature and at high pressure. The lattice constants with an orthorhombic structure for Ni(dmg)2 monotonically decrease with increasing pressure up to 7.4 GPa; the linear compressibility of each axis is estimated. The magnitude of the linear compressibility increases in the order c > b > a in the low-pressure region. However, the lattice constant along the b-axis is smaller than that along the a-axis at pressures greater than 6 GPa. A Ni–Ni distance along the c-axis abruptly decreases from 3.255 A at ambient pressure to 2.82 A at 7.4 GPa. A bulk modulus of Ni(dmg)2 is obtained from the volume versus pressure curve fitted by a Birch equation of state. The bulk modulus of this complex is very small, 8.0 GPa. Ni(dmg)2 is a very compressible compound. The electrical and optical properties of Ni(dmg)2 have been investigated at high pressures. The dπ–π* and 3d–4p ...