In order to confine hydrogen in hydrogen storage alloys, a new method, i.e.
immersion of the alloy into a solution consisting of some kind of oxidants
, was examined. Strong confining effect of hydrogen was observed by the imm
ersion of the alloy in the solution containing chromate ion even after the
alloy was kept under the atmosphere for more than 5000 hours.
It was shown from results of XPS and AES that nickel particles on the alloy
surface which act as active sites for hydrogen absorption/desorption were
changed into nickel oxide by the confining treatment, and the oxide remaine
d to be stable by residual chromate ion on the alloy surface. By formation
of the nickel oxide, i.e., vanishment of surface active sites, it is presum
ed that hydrogen was confined in the hydrogen storage alloy after the treat
ment.
In the case of Ni-MH batteries, remaining capacity of negative electrodes a
gree well with the capacity evaluated from the amounts of hydrogen in the h
ydrogen storage alloys (active material for negative electrode) after the t
reatment.