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The present invention is a hydrogen getter and method for formulating and using the getter. This getter effectively removes hydrogen gas typically present in many hermetically-sealed electronic applications where the presence of such gas would otherwise be harmful to the electronics. The getter is a

The present invention is a hydrogen getter and method for formulating and using the getter. This getter effectively removes hydrogen gas typically present in many hermetically-sealed electronic applications where the presence of such gas would otherwise be harmful to the electronics. The getter is a non-organic composition, usable in a wide range of temperatures as compared to organic getters. Moreover, the getter is formulated to be used without the need for the presence of oxygen. The getter is comprised of effective amounts of an oxide of a platinum group metal, a desiccant, and a gas permeable binder which preferably is cured after composition in an oxygen-bearing environment at about 150 to about 205 degrees centigrade.

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[ What is claimed is:] [1.] A hydrogen gas absorber comprising effective amounts of oxides of platinum group metals to remove hydrogen from a particular environment, effective amounts of a desiccant to absorb water produced from the reaction of hydrogen with said oxides, effective amounts of a gas p

[ What is claimed is:] [1.] A hydrogen gas absorber comprising effective amounts of oxides of platinum group metals to remove hydrogen from a particular environment, effective amounts of a desiccant to absorb water produced from the reaction of hydrogen with said oxides, effective amounts of a gas permeable binder to satisfactorily hold said oxides and said desiccant in a matrix formed by said binder, and wherein the absorber has been cured in gas with effective amounts of oxygen and at an effective temperature and for an effective time sufficient to stabilize the absorber from self-catalytic degradation. [6.] A hydrogen gas absorber comprising from about 10 to about 30 percent by weight palladium monoxide, from about 5 to about and 35 percent by weight of a molecular sieve desiccant, and from about 85 to about 35 percent by weight of a gas permeable binder, said palladium monoxide and said desiccant held in a matrix formed by said binder and wherein the absorber has been cured in air at a temperature from about 170 degrees centigrade to about 204 degrees centigrade for at least about 24 hours. [10.] A method of manufacturing a hydrogen absorber comprising the step of:mixing effective amounts of oxides of platinum group metals to remove hydrogen from a particular environment, effective amounts of a desiccant to absorb water produced from the reaction of hydrogen with said oxides, and effective amounts of a gas permeable binder to satisfactorily hold said oxides and said desiccant in a matrix formed by said binder, andcuring said absorber in a gas with effective amounts of oxygen and at an effective temperature and for an effective time sufficient to stabilize the absorber from self-catalytic degradation. The method as claimed in claim 10 wherein the amounts of said oxide of platinum group metals are from about 10 to about 30 percent by weight and the amounts of said desiccant are from about 5 to about and 35 percent by weight and the amount of said gas permeable binder is from about 85 to about 35 percent by weight and wherein the absorber has been cured in air at a temperature from about 150 degrees centigrade to about 204 degrees centigrade for at least about 24 hours. The method as claimed in claim 11 wherein said oxides are produced by a salt precipitation technique and contains less than about 200 parts per million by weight of chlorine, wherein said desiccant is a molecular sieve desiccant, and wherein said binder is a room temperature vulcanized silicone consisting of a resin reacted with a cure agent and wherein the ratio of said cure agent to said resin is such that the amount of said cure agent that is unreacted residual is minimized.