S. R. Srinivasa scite author profile

The bond lengths and bond angles of orthorhombic black phosphorus have been determined as a function of hydrostatic pressures to 26.6(5) kbar using time-of-flight neutron powder diffraction. We show that the markedly anisotropic compression reported previously results from a large pressure-induced shortening of the van der Waals bonds separating layers of atoms combined with a shear motion within the layers. Covalently bonded chains of atoms along the a direction remain very rigid. The average effective linear compressibility for van der Waals bonds is 1.48(9) ×10−3 kbar−1 while the average effective linear compressibility for covalent bonds is an order of magnitude smaller, 2.6(8) ×10−4 kbar−1.

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High-pressure neutron diffraction study of Si₂N₂O

Srinivasa¹,

Cartz²,

Jorgensen³

et al. 1977

J Appl Cryst

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The lattice parameters, bond lengths and bond angles of Si2N2O have been determined at pressures up to 23 kbar by time‐of‐flight neutron diffraction. The average compressibility coefficients of the orthorhombic structure are Ka = 21 (2), Kb = 34 (2), Kc = 25 (2) and Kν = 79 (4) x 10−5 kbar−1, though the anisotropy is more pronounced at lower pressures with Ka (at zero pressure) estimated to be 10 (8) × 10–5 kbar−1. The major contribution to the compression is a cooperative rotation of adjacent SiN3O tetrahedra brought about by a decrease in the Si–O–Si bond angle. The shortening of one Si–N bond within each tetrahedron further enhances the compression, especially along the b direction.

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Anisotropic Thermal Expansion and Compressibility of Black Phosphorus

Riedner

Srinivasa

Cartz

et al. 1974

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Pressure-induced tetrahedral tilting and deformation in Ge₂N₂O

Srinivasa¹,

Cartz²,

Jorgensen³

et al. 1979

J Appl Cryst

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S. R. Srinivasa

Effect of pressure on bonding in black phosphorus

High-pressure neutron diffraction study of Si₂N₂O

Anisotropic Thermal Expansion and Compressibility of Black Phosphorus

Pressure-induced tetrahedral tilting and deformation in Ge₂N₂O

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About

S. R. Srinivasa

Effect of pressure on bonding in black phosphorus

High-pressure neutron diffraction study of Si2N2O

Anisotropic Thermal Expansion and Compressibility of Black Phosphorus

Pressure-induced tetrahedral tilting and deformation in Ge2N2O

Contact Info

Product

Resources

About

High-pressure neutron diffraction study of Si₂N₂O

Pressure-induced tetrahedral tilting and deformation in Ge₂N₂O