Encyclopedia of Crystallographic Prototypes

AFLOW Prototype: AB_oC8_63_c_c-004

If you are using this page, please cite:
H. Eckert, S. Divilov, M. J. Mehl, D. Hicks, A. C. Zettel, M. Esters. X. Campilongo and S. Curtarolo, The AFLOW Library of Crystallographic Prototypes: Part 4. Submitted to Computational Materials Science.

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https://aflow.org/p/8MTK
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β-SnS Structure: AB_oC8_63_c_c-004

Picture of Structure; Click for Big Picture
Prototype SSn
AFLOW prototype label AB_oC8_63_c_c-004
ICSD 52106
Pearson symbol oC8
Space group number 63
Space group symbol $Cmcm$
AFLOW prototype command aflow --proto=AB_oC8_63_c_c-004
--params=$a, \allowbreak b/a, \allowbreak c/a, \allowbreak y_{1}, \allowbreak y_{2}$
View the structure from several different perspectives
View the primitive and conventional cell
Other compounds with this structure

AgCa,  CaGe,  PtU,  TlI

  • This is the high-temperature structure of SnS, stable above 875K (Villars, 2018). The ground state system, $\alpha$–SnS, the mineral herzenbergite, has the $B29$ structure, more commonly listed as the GeS ($B16$) structure.
  • We use the data taken by (Chattopadhyay, 1985) at 1000K.
  • The ICSD entry for this structure shifts the position of the sulfur atom by $a/2 \hat{x}$ from that given in the paper (Chattopadhyay, 1986). The atomic positions are consisted with the published figure of the structure, so we use the original data rather than that in the ICSD.
  • $\beta$–SnS and CrB ($B33$) have the same AFLOW label, AB_oC8_63_c_c. The structures are generated by the same symmetry operations with different sets of parameters (--params) specified in their corresponding CIF files.

Base-centered Orthorhombic primitive vectors

\[ \begin{array}{ccc} \mathbf{a_{1}}&=&\frac{1}{2}a \,\mathbf{\hat{x}}- \frac{1}{2}b \,\mathbf{\hat{y}}\\\mathbf{a_{2}}&=&\frac{1}{2}a \,\mathbf{\hat{x}}+\frac{1}{2}b \,\mathbf{\hat{y}}\\\mathbf{a_{3}}&=&c \,\mathbf{\hat{z}} \end{array}\]
Picture of Structure; Click for Big Picture

Basis vectors

Lattice coordinates Cartesian coordinates Wyckoff position Atom type
$\mathbf{B_{1}}$ = $- y_{1} \, \mathbf{a}_{1}+y_{1} \, \mathbf{a}_{2}+\frac{1}{4} \, \mathbf{a}_{3}$ = $b y_{1} \,\mathbf{\hat{y}}+\frac{1}{4}c \,\mathbf{\hat{z}}$ (4c) S I
$\mathbf{B_{2}}$ = $y_{1} \, \mathbf{a}_{1}- y_{1} \, \mathbf{a}_{2}+\frac{3}{4} \, \mathbf{a}_{3}$ = $- b y_{1} \,\mathbf{\hat{y}}+\frac{3}{4}c \,\mathbf{\hat{z}}$ (4c) S I
$\mathbf{B_{3}}$ = $- y_{2} \, \mathbf{a}_{1}+y_{2} \, \mathbf{a}_{2}+\frac{1}{4} \, \mathbf{a}_{3}$ = $b y_{2} \,\mathbf{\hat{y}}+\frac{1}{4}c \,\mathbf{\hat{z}}$ (4c) Sn I
$\mathbf{B_{4}}$ = $y_{2} \, \mathbf{a}_{1}- y_{2} \, \mathbf{a}_{2}+\frac{3}{4} \, \mathbf{a}_{3}$ = $- b y_{2} \,\mathbf{\hat{y}}+\frac{3}{4}c \,\mathbf{\hat{z}}$ (4c) Sn I

References

  • T. Chattopadhyay, J. Pannetier, and H. G. von Schnering, Neutron diffraction study of the structural phase transition in SnS and SnSe, J. Phys. Chem. Solids 47, 879–885 (1985), doi:10.1016/0022-3697(86)90059-4.

Found in

  • P. Villars, H. Okamoto, and K. Cenzual, eds., ASM Alloy Phase Diagram Database (ASM International, 2018), chap. Sulfur-Tin Binary Phase Diagram (1990 Sharma R.C.). Copyright © 2006-2018 ASM International.

Prototype Generator

aflow --proto=AB_oC8_63_c_c --params=$a,b/a,c/a,y_{1},y_{2}$

Species:

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Output: