Plastic-bonded electrodes for nickel—cadmium accumulators. VIII. Study of oxygen recombination rate on plastic-bonded cadmium electrodes provided with active carbon catalyst

The rate of oxygen recombination (i.e., reduction) on plastic-bonded cadmium electrodes in sealed Ni-Cd systems can be controlled over a wide range by doping the negative active material with Ni(OH),, FeaOb or carbon black. The highest recombination rate was attained by combining all these additives

On account of their physical and chemical properties, sulfones form a very attractive group of orgamc solvents usable m lithium mtercalation batteries Conductivity measurements performed on vanous hthium salts m molten dimethylsulfone (DMSO\*) mdicate that LiC104 and LiAsF6/DMS02 are the most promis

The oxygen recombination (reduction) rate on plastic-bonded cadmium electrodes in sealed Ni-Cd systems can be increased by using metal screens applied to the gas side of the plastic-bonded cadmium electrode. The metal screen applied should have an optimum geometry (mesh size, wire diameter) to prov

It was found that the rate of reduction of oxygen on plastic-bonded cadmium electrodes doped with Nl(OH), is highest when the added nickel amounts to 0.3%. If the active material 1s in prolonged contact with a solution of NISOq and then alkahzed, its oxygen reduction activity is appreciably lowered,