E. Yu. Zarechnaya scite author profile

An orthorhombic (space group Pnnm) boron phase was synthesized at pressures above 9 GPa and high temperature, and it was demonstrated to be stable at least up to 30 GPa. The structure, determined by single-crystal x-ray diffraction, consists of B12 icosahedra and B2 dumbbells. The charge density distribution obtained from experimental data and ab initio calculations suggests covalent chemical bonding in this phase. Strong covalent interatomic interactions explain the low compressibility value (bulk modulus is K300=227 GPa) and high hardness of high-pressure boron (Vickers hardness HV=58 GPa), after diamond the second hardest elemental material.

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Synthesis of an orthorhombic high pressure boron phase

Zarechnaya

Dubrovinsky

Dubrovinskaia

et al. 2008

Science and Technology of Advanced Materials

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The densest boron phase (2.52 g cm) was produced as a result of the synthesis under pressures above 9 GPa and temperatures up to ∼1800 °C. The x-ray powder diffraction pattern and the Raman spectra of the new material do not correspond to those of any known boron phases. A new high-pressure high-temperature boron phase was defined to have an orthorhombic symmetry ( (No. 58)) and 28 atoms per unit cell.

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Electron-Deficient and Polycenter Bonds in the High-Pressureγ−B28Phase of Boron

et al. 2011

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E. Yu. Zarechnaya

Superhard Semiconducting Optically Transparent High Pressure Phase of Boron

Synthesis of an orthorhombic high pressure boron phase

Electron-Deficient and Polycenter Bonds in the High-Pressureγ−B28Phase of Boron

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