PLR (Plastic Lithium Rechargeable) batteries using nanoscale materials: A convenient source of electrical energy for the future?

G. Campet; N. Treuil; A. Poquet; S. J. Hwang; C. Labrugère; A. Deshayes; J. C. Frison; J. Portier; J. M. Reau; J. H. Choy

PLR (Plastic Lithium Rechargeable) batteries using nanoscale materials: A convenient source of electrical energy for the future?

G. Campet, N. Treuil, A. Poquet, S. J. Hwang, C. Labrugère, A. Deshayes, J. C. Frison, J. Portier, J. M. Reau, J. H. Choy

Department of Materials Science and Engineering

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

2 Citations (Scopus)

Abstract

This communication describes the synthesis of: (i) non-toxic and low cost nanocrystalline electrode materials, which can be prepared advantageously at low temperature; (ii) highly conductive electrolyte membranes formed by the nano-encapsulation within a poly(acrylonitrile)-based polymer matrix of a solution of LiPF₆ in organic solvants. The performances of rechargeable PLR (Plastic Lithium Rechargeable) batteries using the above mentioned components are presented.

Original language	English
Pages (from-to)	885-892
Number of pages	8
Journal	Bulletin of the Korean Chemical Society
Volume	20
Issue number	8
Publication status	Published - 1999 Aug 20

All Science Journal Classification (ASJC) codes

Chemistry(all)

Cite this

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title = "PLR (Plastic Lithium Rechargeable) batteries using nanoscale materials: A convenient source of electrical energy for the future?",

abstract = "This communication describes the synthesis of: (i) non-toxic and low cost nanocrystalline electrode materials, which can be prepared advantageously at low temperature; (ii) highly conductive electrolyte membranes formed by the nano-encapsulation within a poly(acrylonitrile)-based polymer matrix of a solution of LiPF6 in organic solvants. The performances of rechargeable PLR (Plastic Lithium Rechargeable) batteries using the above mentioned components are presented.",

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year = "1999",

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TY - JOUR

T1 - PLR (Plastic Lithium Rechargeable) batteries using nanoscale materials

T2 - A convenient source of electrical energy for the future?

AU - Campet, G.

AU - Treuil, N.

AU - Poquet, A.

AU - Hwang, S. J.

AU - Labrugère, C.

AU - Deshayes, A.

AU - Frison, J. C.

AU - Portier, J.

AU - Reau, J. M.

AU - Choy, J. H.

PY - 1999/8/20

Y1 - 1999/8/20

N2 - This communication describes the synthesis of: (i) non-toxic and low cost nanocrystalline electrode materials, which can be prepared advantageously at low temperature; (ii) highly conductive electrolyte membranes formed by the nano-encapsulation within a poly(acrylonitrile)-based polymer matrix of a solution of LiPF6 in organic solvants. The performances of rechargeable PLR (Plastic Lithium Rechargeable) batteries using the above mentioned components are presented.

AB - This communication describes the synthesis of: (i) non-toxic and low cost nanocrystalline electrode materials, which can be prepared advantageously at low temperature; (ii) highly conductive electrolyte membranes formed by the nano-encapsulation within a poly(acrylonitrile)-based polymer matrix of a solution of LiPF6 in organic solvants. The performances of rechargeable PLR (Plastic Lithium Rechargeable) batteries using the above mentioned components are presented.

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M3 - Article

AN - SCOPUS:0033588494

VL - 20

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EP - 892

JO - Bulletin of the Korean Chemical Society

JF - Bulletin of the Korean Chemical Society

SN - 0253-2964

IS - 8

ER -

PLR (Plastic Lithium Rechargeable) batteries using nanoscale materials: A convenient source of electrical energy for the future?

Abstract

All Science Journal Classification (ASJC) codes

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