Effect of Ga incorporation on the structure and Li ion conductivity of La3Zr2Li7O12

M. A. Howard; O. Clemens; E. Kendrick; K. S. Knight; D. C. Apperley; P. A. Anderson; P. R. Slater

doi:10.1039/c2dt31318a

Effect of Ga incorporation on the structure and Li ion conductivity of La3Zr2Li7O12

M. A. Howard, O. Clemens, E. Kendrick, K. S. Knight, D. C. Apperley, P. A. Anderson, P. R. Slater

Chemistry

Research output: Contribution to journal › Article › peer-review

71 Citations (Scopus)

Abstract

In this paper we examine the effect of Ga doping on the structure and conductivity of the high Li ion content garnet-related system, La3Zr2Li7O12. Without Ga doping, La3Zr2Li7O12 is tetragonal and has low Li ion conductivity. The introduction of Ga leads to a change to a cubic unit cell, and a large enhancement in the conductivity. Prior structural studies of La3Zr2Li7O12 have shown the presence of both tetrahedral and distorted octahedral sites for Li, and the low conductivity can be explained by the ordered nature of the Li distribution. The present structural study of La3Zr2Ga0.5Li5.5O12 shows that Ga substitutes onto the tetrahedral site. Despite the presence of non-mobile Ga3+ on the Li sites, the conductivity is enhanced as a result of the introduction of vacancies in the Li sites, and consequent disorder on the Li sublattice. Further work has suggested that over time in air, there is some H+/Li+ exchange, and consequently some variation in the conductivity.

Original language	English
Pages (from-to)	12048-12053
Journal	Dalton Transactions
Volume	41
DOIs	https://doi.org/10.1039/c2dt31318a
Publication status	Published - 13 Aug 2012

Keywords

garnet
lio ion battery

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10.1039/c2dt31318a

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title = "Effect of Ga incorporation on the structure and Li ion conductivity of La3Zr2Li7O12",

abstract = "In this paper we examine the effect of Ga doping on the structure and conductivity of the high Li ion content garnet-related system, La3Zr2Li7O12. Without Ga doping, La3Zr2Li7O12 is tetragonal and has low Li ion conductivity. The introduction of Ga leads to a change to a cubic unit cell, and a large enhancement in the conductivity. Prior structural studies of La3Zr2Li7O12 have shown the presence of both tetrahedral and distorted octahedral sites for Li, and the low conductivity can be explained by the ordered nature of the Li distribution. The present structural study of La3Zr2Ga0.5Li5.5O12 shows that Ga substitutes onto the tetrahedral site. Despite the presence of non-mobile Ga3+ on the Li sites, the conductivity is enhanced as a result of the introduction of vacancies in the Li sites, and consequent disorder on the Li sublattice. Further work has suggested that over time in air, there is some H+/Li+ exchange, and consequently some variation in the conductivity.",

keywords = "garnet, lio ion battery",

author = "Howard, {M. A.} and O. Clemens and E. Kendrick and Knight, {K. S.} and Apperley, {D. C.} and Anderson, {P. A.} and Slater, {P. R.}",

year = "2012",

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T1 - Effect of Ga incorporation on the structure and Li ion conductivity of La3Zr2Li7O12

AU - Howard, M. A.

AU - Clemens, O.

AU - Kendrick, E.

AU - Knight, K. S.

AU - Apperley, D. C.

AU - Anderson, P. A.

AU - Slater, P. R.

PY - 2012/8/13

Y1 - 2012/8/13

N2 - In this paper we examine the effect of Ga doping on the structure and conductivity of the high Li ion content garnet-related system, La3Zr2Li7O12. Without Ga doping, La3Zr2Li7O12 is tetragonal and has low Li ion conductivity. The introduction of Ga leads to a change to a cubic unit cell, and a large enhancement in the conductivity. Prior structural studies of La3Zr2Li7O12 have shown the presence of both tetrahedral and distorted octahedral sites for Li, and the low conductivity can be explained by the ordered nature of the Li distribution. The present structural study of La3Zr2Ga0.5Li5.5O12 shows that Ga substitutes onto the tetrahedral site. Despite the presence of non-mobile Ga3+ on the Li sites, the conductivity is enhanced as a result of the introduction of vacancies in the Li sites, and consequent disorder on the Li sublattice. Further work has suggested that over time in air, there is some H+/Li+ exchange, and consequently some variation in the conductivity.

AB - In this paper we examine the effect of Ga doping on the structure and conductivity of the high Li ion content garnet-related system, La3Zr2Li7O12. Without Ga doping, La3Zr2Li7O12 is tetragonal and has low Li ion conductivity. The introduction of Ga leads to a change to a cubic unit cell, and a large enhancement in the conductivity. Prior structural studies of La3Zr2Li7O12 have shown the presence of both tetrahedral and distorted octahedral sites for Li, and the low conductivity can be explained by the ordered nature of the Li distribution. The present structural study of La3Zr2Ga0.5Li5.5O12 shows that Ga substitutes onto the tetrahedral site. Despite the presence of non-mobile Ga3+ on the Li sites, the conductivity is enhanced as a result of the introduction of vacancies in the Li sites, and consequent disorder on the Li sublattice. Further work has suggested that over time in air, there is some H+/Li+ exchange, and consequently some variation in the conductivity.

KW - garnet

KW - lio ion battery

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DO - 10.1039/c2dt31318a

M3 - Article

SN - 1477-9226

VL - 41

SP - 12048

EP - 12053

JO - Dalton Transactions

JF - Dalton Transactions

ER -

Effect of Ga incorporation on the structure and Li ion conductivity of La3Zr2Li7O12

Abstract

Keywords

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