Your search keyword '"Sørby, M."' showing total 2 results

1. The crystal structure of Zr2NiD4.5.

Author

Sørby, M. H., Gunnæs, A. E., Løvvik, O. M., Brinks, H. W., Fjellvåg, H., and Hauback, B. C.

Subjects

*DEUTERIUM, *SYNCHROTRON radiation, *NEUTRON diffraction, *ELECTRON diffraction, *TETRAHEDRAL coordinates, *CRYSTALLOGRAPHY

Abstract

The crystal structure of Zr2NiD4.5 has been determined by a combination of synchrotron radiation powder X-ray diffraction, electron diffraction and powder neutron diffraction data. Deuterium ordering results in a triclinic supercell given by asuper = 6.81560 (7), bsuper = 8.85137 (9), csuper = 8.88007 (10) Å, αsuper = 79.8337 (8), βsuper = 90.0987 (9), γsuper = 90.3634 (9)°, which relates to the non-super unit cell as asuper = − a, bsuper = − b −  c, csuper = − b +  c. The centrosymmetric and fully ordered deuterium sublattice was determined by simulated annealing and Rietveld refinement. Deuterium was found to occupy three types of tetrahedral sites: two that are coordinated by four Zr atoms and one that is coordinated by three Zr atoms and one Ni atom. All D—D distances are longer than 2 Å. The feasibility of the crystal structure was supported by density functional theory calculations. [ABSTRACT FROM AUTHOR]

Published

2006

2. The crystal structure of Zr2NiD4.5.

Author

Sørby, M. H., Gunnæs, A. E., Løvvik, O. M., Brinks, H. W., Fjellvåg, H., and Hauback, B. C.

Subjects

DEUTERIUM, SYNCHROTRON radiation, NEUTRON diffraction, ELECTRON diffraction, TETRAHEDRAL coordinates, CRYSTALLOGRAPHY

Abstract

The crystal structure of Zr2NiD4.5 has been determined by a combination of synchrotron radiation powder X-ray diffraction, electron diffraction and powder neutron diffraction data. Deuterium ordering results in a triclinic supercell given by asuper = 6.81560 (7), bsuper = 8.85137 (9), csuper = 8.88007 (10) Å, αsuper = 79.8337 (8), βsuper = 90.0987 (9), γsuper = 90.3634 (9)°, which relates to the non-super unit cell as asuper = − a, bsuper = − b −  c, csuper = − b +  c. The centrosymmetric and fully ordered deuterium sublattice was determined by simulated annealing and Rietveld refinement. Deuterium was found to occupy three types of tetrahedral sites: two that are coordinated by four Zr atoms and one that is coordinated by three Zr atoms and one Ni atom. All D—D distances are longer than 2 Å. The feasibility of the crystal structure was supported by density functional theory calculations. [ABSTRACT FROM AUTHOR]

Published

2006