The ternary phases CuLi2−xSb, Cu2−xLi1+xSb, and Cu2−xLi1−xSb and their structural relations to binary alloys in the systems Cu−Sb and Li−Sb

Alexander Beutl, Herta Silvia Effenberger, Hans Flandorfer (Korresp. Autor*in)

Veröffentlichungen: Beitrag in FachzeitschriftArtikelPeer Reviewed

Abstract

In the course of studies on the phase relations in the system Cu-Li-Sb at 400 °C the ternary compounds CuLi 2-x Sb, Cu 2-x Li 1+x Sb and Cu 2-x Li 1-x Sb were synthesized by melting processes followed by long-time annealing procedures. They were chemically as well as structurally characterized. Powder and single-crystal X-ray diffraction investigations proved that CuLi 2-x Sb crystallizes cubic (space group F4?3m, a=6.248(2) Å) and Cu 2-x Li 1-x Sb hexagonal (space group P6 3/mmc, a=4.3415(8) Å, c=7.448(2) Å). For Cu 2-x Li 1+x Sb the average structure is cubic (space group Fm3?m, a=6.169(2) Å). However, it was not possible to unravel split reflections seen in the single-crystal diffraction images. Powder X-ray diffraction patterns gave a hint for tetragonal symmetry (a=4.3832(1) Å, c=6.0512(2) Å). It is assumed, that Cu 2-x Li 1+x Sb is formed from Cu-rich CuLi 2-x Sb in a second order transition reaction during cooling; single domains could not be separated. The three title compounds show close structural relations among each other as well as to the binary compounds Li 3Sb (P6 3/mmc and Fm3?m modifications), β-Cu 3Sb (Fm3?m), η-Cu 2Sb (P4/nmm) and δ-Cu 4Sb (P6 3/mmc). In all cases, the Sb atoms are in a fully ordered ccp or hcp arrangement. In between are the Cu and Li atoms. They exhibit an extensive disorder due to both, mixed and partial occupations making the alloy system Cu-Li-Sb a candidate for electrode materials to be used in Li-ion batteries.

OriginalspracheEnglisch
Seiten (von - bis)735-749
Seitenumfang15
FachzeitschriftZeitschrift für Kristallographie - Crystalline Materials
Jahrgang232
Ausgabenummer11
Frühes Online-Datum29 Juni 2017
DOIs
PublikationsstatusVeröffentlicht - Nov. 2017

ÖFOS 2012

  • 104003 Anorganische Chemie
  • 104011 Materialchemie
  • 105113 Kristallographie

Zitationsweisen