Synthesis, crystal structure, phase relations and chemical bonding analysis of the new Nowotny chimney-ladder compound ZrBi<sub>1.62</sub>

Boström, Magnus; Lind, Hanna; Lidin, Sven; Niewa, Rainer; Grin, Yuri

Synthesis, crystal structure, phase relations and chemical bonding analysis of the new Nowotny chimney-ladder compound ZrBi_1.62

Mark

Boström, Magnus ; Lind, Hanna ; Lidin, Sven ^LU ; Niewa, Rainer and Grin, Yuri (2006) In Solid State Sciences 8(10). p.1173-1180

Abstract: ZrBi_1.62 is a new compound crystallising with an incommensurate Nowotny chimney-ladder structure, which was refined from single crystal X-ray diffraction data using a four-dimensional formalism. The tetragonal unit cell has the lattice parameters a = 6.958 (7) Å, c = 3.460 (3) Å and q = (0 0 0.382). The symmetry is described by the superspace group pair W:P4/nnc:q-1q1-P:I4₁/amd:1-1ss. The full phase relations of ZrBi_1.62 were established with DTA and phase analysis by X-ray powder diffraction, showing that the compound is thermodynamically stable only in the limited temperature range of 740-820 °C. The chemical bonding in ZrBi_1.62 was analyzed using the electron localization function (ELF)... (More); ZrBi_1.62 is a new compound crystallising with an incommensurate Nowotny chimney-ladder structure, which was refined from single crystal X-ray diffraction data using a four-dimensional formalism. The tetragonal unit cell has the lattice parameters a = 6.958 (7) Å, c = 3.460 (3) Å and q = (0 0 0.382). The symmetry is described by the superspace group pair W:P4/nnc:q-1q1-P:I4₁/amd:1-1ss. The full phase relations of ZrBi_1.62 were established with DTA and phase analysis by X-ray powder diffraction, showing that the compound is thermodynamically stable only in the limited temperature range of 740-820 °C. The chemical bonding in ZrBi_1.62 was analyzed using the electron localization function (ELF) for the 5-fold and the 13-fold approximants of the incommensurate structure. The attractors of the ELF are located near the shortest Zr-Bi contacts, showing a covalent interaction between the zirconium and the bismuth atoms. No indication was found for direct bonding within the Zr and Bi networks, which usually is assumed in the crystal structure description of chimney-ladder phases. The calculated electron density of states (DOS) indicates metallic behavior.
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Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/ddf9c713-03b1-4937-8960-445b51ff995c

author

Boström, Magnus ; Lind, Hanna ; Lidin, Sven ^LU ; Niewa, Rainer and Grin, Yuri

publishing date

2006-10-01

type

Contribution to journal

publication status

published

keywords

Binary Zr-Bi system, Chimney-ladder phase, Electron localization function, Incommensurately modulated structure, Phase relationship, Single-crystal X-ray diffraction

in

Solid State Sciences

volume

8

issue

10

pages

8 pages

publisher

Elsevier

external identifiers

scopus:33749587959

ISSN

1293-2558

DOI

10.1016/j.solidstatesciences.2006.03.008

language

English

LU publication?

no

id

ddf9c713-03b1-4937-8960-445b51ff995c

date added to LUP

2019-04-08 15:18:22

date last changed

2022-01-31 18:51:56

@article{ddf9c713-03b1-4937-8960-445b51ff995c,
  abstract     = {{<p>ZrBi<sub>1.62</sub> is a new compound crystallising with an incommensurate Nowotny chimney-ladder structure, which was refined from single crystal X-ray diffraction data using a four-dimensional formalism. The tetragonal unit cell has the lattice parameters a = 6.958 (7)   Å, c = 3.460 (3)   Å and q = (0 0 0.382). The symmetry is described by the superspace group pair W:P4/nnc:q-1q1-P:I4<sub>1</sub>/amd:1-1ss. The full phase relations of ZrBi<sub>1.62</sub> were established with DTA and phase analysis by X-ray powder diffraction, showing that the compound is thermodynamically stable only in the limited temperature range of 740-820 °C. The chemical bonding in ZrBi<sub>1.62</sub> was analyzed using the electron localization function (ELF) for the 5-fold and the 13-fold approximants of the incommensurate structure. The attractors of the ELF are located near the shortest Zr-Bi contacts, showing a covalent interaction between the zirconium and the bismuth atoms. No indication was found for direct bonding within the Zr and Bi networks, which usually is assumed in the crystal structure description of chimney-ladder phases. The calculated electron density of states (DOS) indicates metallic behavior.</p>}},
  author       = {{Boström, Magnus and Lind, Hanna and Lidin, Sven and Niewa, Rainer and Grin, Yuri}},
  issn         = {{1293-2558}},
  keywords     = {{Binary Zr-Bi system; Chimney-ladder phase; Electron localization function; Incommensurately modulated structure; Phase relationship; Single-crystal X-ray diffraction}},
  language     = {{eng}},
  month        = {{10}},
  number       = {{10}},
  pages        = {{1173--1180}},
  publisher    = {{Elsevier}},
  series       = {{Solid State Sciences}},
  title        = {{Synthesis, crystal structure, phase relations and chemical bonding analysis of the new Nowotny chimney-ladder compound ZrBi<sub>1.62</sub>}},
  url          = {{http://dx.doi.org/10.1016/j.solidstatesciences.2006.03.008}},
  doi          = {{10.1016/j.solidstatesciences.2006.03.008}},
  volume       = {{8}},
  year         = {{2006}},
}

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Synthesis, crystal structure, phase relations and chemical bonding analysis of the new Nowotny chimney-ladder compound ZrBi_1.62