Ionically conductive polymer gels

Chemistry: electrical current producing apparatus – product – and – Current producing cell – elements – subcombinations and... – Include electrolyte chemically specified and method

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Details

429192, 429194, 252 622, 252500, 204414, 204421, H01M 618

Patent

active

054609038

DESCRIPTION:

BRIEF SUMMARY
This invention relates to bulk ionically conductive polymer gels and their preparation, and to galvanic cells containing them.


BACKGROUND OF THE INVENTION

The most commonly used electrolytes are fluid liquids which comprise solutions in a liquid solvent of solute ionic species. Such fluid liquid electrolytes, on incorporation into a galvanic cell, permit migration of ions between the electrodes of the cell and, as a consequence, the provision of electric free energy to a closed external circuit. Despite their widespread use, such electrolytes nonetheless suffer from several disadvantages. Thus, they are often corrosive, leading to leakage from cells and they do not provide a firm barrier between the electrodes when required to assist in stabilizing the inter-electrode distance and in preventing physical loss of electrode material from the electrode surface.
In order, in part, to overcome the disadvantages inherent in fluid liquid electrolytes, particularly In relation to galvanic cells, considerable effort has been expended in attempts to provide solid or highly viscous polymeric electrolytes which contain salts which display mobility, under appropriate conditions, of at least some of the ionic species present. The solid polymeric electrolytes are capable of acting in thin film form as electrode separators and in solid-state cells can deform while maintaining good contact with the electrodes, thus minimizing problems arising from mechanical strain arising either from mechanical stresses during use or volume changes during the charge/discharge cycle. A particular area of importance is In cells that do not depend upon water as a component of the electrolyte, such as lithium cells where water and other materials capable of reacting with lithium are undesirable. The potential uses for such materials are not limited to batteries but include, inter alia, sensor devices and thermoelectric energy convectors.
A prominent polymeric material for this purpose has been poly(ethylene oxide) (PEO), In which certain salts are soluble and can form complexes. The electrical and mechanical properties of such polymer electrolyte materials, although encouraging, require further enhancement before commercialisation can be envisaged. Improvements in the properties have been obtained using graft copolymers in which short poly(ethylene oxide) chains are present as pendant units attached to a long main chain. Such materials have been described In GB-A-2161488. Another means of improving the mechanical properties is to use block copolymers in which short poly(ethylene oxide) chains alternate with other units such as polysiloxane. Yet another means is to cross-link a poly(ethylene oxide) with an epoxy compound. In each case the polymer electrolyte contains a suitable salt complexed with the polymer to provide the ionic species required for conductivity. In all these cases the conductivities reported at 25.degree. C. or at room temperature are at best about 10.sup.-4 Siemens per cm. These values are an order of magnitude less than a commonly cited target for commercial realization of 10.sup.-3 Siemens per cm.
It is also possible to provide polymer electrolytes which consist of a mixture of a polymer, preferably of high molecular weight, with a compound of low molecular weight that is a solvent for the polymer in the range of temperatures in which the electrolyte is to be used, together with an appropriate salt that is soluble in the polymer and in the compound of low molecular weight. For example, as disclosed in GB-A-2212504 and 2216132, polymer electrolytes consisting of poly-N,N-dimethylacrylamide or closely related poly-N-substituted acrylamide of high molecular weight plasticized with dimethylacetamide together with lithium trifluoromethane sulphonate (lithium triflate) as the salt component have been evaluated and found to exhibit good conductivities together with good mechanical properties. These polymer electrolytes are gel-like in character, but the compound of low molecular weight must not exceed a certain limiting concen

REFERENCES:
patent: 4908283 (1990-03-01), Takahashi et al.
patent: 5009970 (1991-04-01), Kronfli et al.
patent: 5356553 (1994-10-01), Kono et al.
G. Feuillade, P. H. Perche, "Ion-Conductive macromolecular gels . . . " Journal of Applied Electrochemistry, vol. 5, 1975, London, GB, pp. 63-69.

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