论文信息 - Structure and complex twinning of dysprosium disilicate (Dy2Si2O7), type B

Structure and complex twinning of dysprosium disilicate (Dy2Si2O7), type B

Dysprosium disilicate (Dy(2)Si(2)O(7)) is triclinic with a = 6.6158 (2), b = 6.6604 (2), c = 12.0551 (4) A, alpha = 94.373 (2), beta = 90.836 (2), gamma = 91.512 (2) degrees, V = 529.4 (1) A(3), space group P1;, Z = 4 and D(x) = 6.156 g cm(-3). The structure (single-crystal X-ray, R = 0.033, wR = 0.041) is built from a linear triple tetrahedral group [Si(3)O(10)] and isolated [SiO(4)] tetrahedron cross-linked by Dy(3+) in one sixfold and three eightfold coordinated positions, and corresponds to the presently revised type B structure of Ho(2)Si(2)O(7). The formation of the unusual linear triple tetrahedral group in the type B structure allows for a more continuous transition in the mean size of REE(3+)O(n) (REE = rare earth element) polyhedra in REE disilicates through the 4f transition metal series. The crystal of Dy(2)Si(2)O(7) investigated was complexly twinned such that the diffraction pattern was also consistent with a larger dimensionally monoclinic unit cell (a = 22.5354, b = 14.2102, c = 6.6158 A, beta = 91.788 degrees ), which resulted in an apparent superstructure of the type B structure in space group C1;. Lattice coincidence with the type B unit cell appears to have been maintained during crystal synthesis and quenching by the complex sector-zoned growth twin.

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[1] R. Blessing. Outlier Treatment in Data Merging , 1997 .

[2] A. Christensen,et al. SYNTHESIS, CRYSTAL GROWTH AND STRUCTURE INVESTIGATIONS OF RARE-EARTH DISILICATES AND RARE-EARTH OXYAPATITES , 1997 .

[3] M. Hanfland,et al. STRUCTURE INVESTIGATIONS OF THE HIGH-TEMPERATURE PHASES OF LA2SI2O7, GD2SI2O7 AND SM2SI2O7 , 1997 .

[4] R. Blessing,et al. An empirical correction for absorption anisotropy. , 1995, Acta crystallographica. Section A, Foundations of crystallography.

[5] A. Christensen,et al. X-Ray Crystallographic Study of Ce2Si2O7. , 1995 .

[6] P. Burns,et al. Structure and twinning of cobaltite , 1990 .

[7] F. Glasser,et al. The crystal structure of δ-yttrium pyrosilicate, δ- Y2Si2O7 , 1990 .

[8] G. Love,et al. Universal correction procedure for electron-probe microanalysis. I. Measurement of X-ray depth distributions in solids , 1985 .

[9] F. Liebau. Structural chemistry of silicates , 1985 .

[10] R. D. Shannon. Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides , 1976 .

[11] H. Taylor. The crystal structure of kilchoanite, Ca6(SiO4)(Si3O10), with some comments on related phases , 1971, Mineralogical Magazine.

[12] J. Felsche. The crystal structures of the dimorphic rare earth disilicate, Pr2Si2O7* , 1971 .

[13] D. Rabinovich,et al. Calculation of absorption corrections for camera and diffractometer data , 1965 .