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POLYMER ELECTROLYTES BASED ON POLYPHOSPHAZENE BACKBONES.
D. F. Shriver
, J. S. Tonge
, A. Barriola
, P. M. Blonsky
, H. R. Allcock
, S. Kwon
, P. Austin
Chemistry
Materials Research Institute (MRI)
Research output
:
Chapter in Book/Report/Conference proceeding
›
Conference contribution
Overview
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Keyphrases
Polyphosphazene
100%
Side Chain
100%
Polymer Electrolyte
100%
Salt Concentration
33%
Alkali Metals
33%
Side Chain Structure
33%
Polyether
33%
Short Chain
33%
Alkali Metal Salts
33%
Polar Polymer
33%
Segmental Motion
33%
Solid Electrolyte
33%
Coordination Modes
33%
Good Conductivity
33%
Comb-like Polymer
33%
Chemistry
Polymer Electrolyte
100%
Table Salt
100%
Phase Composition
33%
NMR Spectroscopy
33%
Alkali Metal Salt
33%
Solid Electrolyte
33%
Polyether
33%
Alkali Metal
33%
Engineering
Side Chain
100%
Polyphosphazenes
100%
Chain Structure
25%
Metal Salt
25%
Polar Polymer
25%
Salt Concentration
25%
Segmental Motion
25%
Phase Composition
25%
Material Science
Polymer Electrolyte
100%
Alkali Metal
100%
Nuclear Magnetic Resonance
50%
Phase Composition
50%
Solid Electrolyte
50%