The structure of polaronic electron cavities in lithium-ammonia solutions

H  Thompson; J C  Wasse; N T  Skipper; C A  Howard; D T  Bowron; A K  Soper; Christopher Howard

doi:10.1088/0953-8984/16/32/001

The structure of polaronic electron cavities in lithium-ammonia solutions

H Thompson, J C Wasse, N T Skipper, C A Howard, D T Bowron, A K Soper, Christopher Howard

Department of Physics

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

Abstract

Neutron diffraction has been used in conjunction with isotopic substitution of deuterium for hydrogen to study the structure of lithium-ammonia solutions, at concentrations spanning the metal-nonmetal transition. Detailed analysis and visualization of our experimental data has been carried out via iterative refinement of a three-dimensional molecular model, allowing us to obtain unique insight into the formation of polaronic electron cavities in the solutions. At low electron concentrations the solutions are nonmetallic, and the ammonia molecules are orientated around cavity centres to form Bjerrum-type defects. As the electron content is increased, the solutions become metallic, and we find evidence of percolation channels through the solvent. The dissociated electrons therefore play an active role in determining the structure of these solutions, and serve to disrupt the hydrogen bonding present in liquid ammonia.

Original language	English
Pages (from-to)	5639-5652
Number of pages	14
Journal	Journal of Physics: Condensed Matter
Volume	16
Issue number	32
DOIs	https://doi.org/10.1088/0953-8984/16/32/001
Publication status	Published - 18 Aug 2004

Keywords

NEUTRON-DIFFRACTION DATA
LIQUID-AMMONIA
AQUEOUS-SOLUTIONS
X-RAY
DEUTEROAMMONIA
REFINEMENT
SOLVENTS
STATES
IONS

Access to Document

10.1088/0953-8984/16/32/001

Cite this

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title = "The structure of polaronic electron cavities in lithium-ammonia solutions",

abstract = "Neutron diffraction has been used in conjunction with isotopic substitution of deuterium for hydrogen to study the structure of lithium-ammonia solutions, at concentrations spanning the metal-nonmetal transition. Detailed analysis and visualization of our experimental data has been carried out via iterative refinement of a three-dimensional molecular model, allowing us to obtain unique insight into the formation of polaronic electron cavities in the solutions. At low electron concentrations the solutions are nonmetallic, and the ammonia molecules are orientated around cavity centres to form Bjerrum-type defects. As the electron content is increased, the solutions become metallic, and we find evidence of percolation channels through the solvent. The dissociated electrons therefore play an active role in determining the structure of these solutions, and serve to disrupt the hydrogen bonding present in liquid ammonia.",

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author = "H Thompson and Wasse, {J C} and Skipper, {N T} and Howard, {C A} and Bowron, {D T} and Soper, {A K} and Christopher Howard",

year = "2004",

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doi = "10.1088/0953-8984/16/32/001",

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T1 - The structure of polaronic electron cavities in lithium-ammonia solutions

AU - Thompson, H

AU - Wasse, J C

AU - Skipper, N T

AU - Howard, C A

AU - Bowron, D T

AU - Soper, A K

AU - Howard, Christopher

PY - 2004/8/18

Y1 - 2004/8/18

N2 - Neutron diffraction has been used in conjunction with isotopic substitution of deuterium for hydrogen to study the structure of lithium-ammonia solutions, at concentrations spanning the metal-nonmetal transition. Detailed analysis and visualization of our experimental data has been carried out via iterative refinement of a three-dimensional molecular model, allowing us to obtain unique insight into the formation of polaronic electron cavities in the solutions. At low electron concentrations the solutions are nonmetallic, and the ammonia molecules are orientated around cavity centres to form Bjerrum-type defects. As the electron content is increased, the solutions become metallic, and we find evidence of percolation channels through the solvent. The dissociated electrons therefore play an active role in determining the structure of these solutions, and serve to disrupt the hydrogen bonding present in liquid ammonia.

AB - Neutron diffraction has been used in conjunction with isotopic substitution of deuterium for hydrogen to study the structure of lithium-ammonia solutions, at concentrations spanning the metal-nonmetal transition. Detailed analysis and visualization of our experimental data has been carried out via iterative refinement of a three-dimensional molecular model, allowing us to obtain unique insight into the formation of polaronic electron cavities in the solutions. At low electron concentrations the solutions are nonmetallic, and the ammonia molecules are orientated around cavity centres to form Bjerrum-type defects. As the electron content is increased, the solutions become metallic, and we find evidence of percolation channels through the solvent. The dissociated electrons therefore play an active role in determining the structure of these solutions, and serve to disrupt the hydrogen bonding present in liquid ammonia.

KW - NEUTRON-DIFFRACTION DATA

KW - LIQUID-AMMONIA

KW - AQUEOUS-SOLUTIONS

KW - X-RAY

KW - DEUTEROAMMONIA

KW - REFINEMENT

KW - SOLVENTS

KW - STATES

KW - IONS

U2 - 10.1088/0953-8984/16/32/001

DO - 10.1088/0953-8984/16/32/001

M3 - Article

SN - 0953-8984

VL - 16

SP - 5639

EP - 5652

JO - Journal of Physics: Condensed Matter

JF - Journal of Physics: Condensed Matter

IS - 32

ER -