Hydrogen storage materials containing liquid electrolytes

What is claimed is: 1. A hydrogen-storage material formulation comprising: (a) a solid hydrogen-storage material containing at least one metal and hydrogen that is bonded ionically, covalently, and/or interstitially within said hydrogen-storage material; and (b) a liquid electrolyte that is ionically conductive for at least one ion derived from said hydrogen-storage material, wherein said liquid electrolyte is compositionally different than said hydrogen-storage material, wherein said liquid electrolyte is selected such that said liquid electrolyte is characterized by the property that at a temperature equal to the melting point of said liquid electrolyte, said liquid electrolyte does not react with said hydrogen-storage material to release said hydrogen, wherein said hydrogen-storage material is in the form of a powder, and wherein said liquid electrolyte occupies space within said powder. 2. The hydrogen-storage material formulation of claim 1 , wherein said liquid electrolyte is present in a liquid electrolyte concentration from about 1 wt % to about 50 wt % of said hydrogen-storage material formulation. 3. The hydrogen-storage material formulation of claim 2 , wherein said liquid electrolyte concentration is less than 20 wt % of said hydrogen-storage material formulation. 4. The hydrogen-storage material formulation of claim 1 , wherein said hydrogen is bonded ionically, covalently, and/or interstitially with said at least one metal. 5. The hydrogen-storage material formulation of claim 1 , wherein said hydrogen-storage material further contains a metalloid, and wherein said hydrogen is bonded ionically and/or covalently with said metalloid. 6. The hydrogen-storage material formulation of claim 1 , wherein said hydrogen-storage material is selected from the group consisting of complex metal hydrides, destabilized metal hydrides, metal borohydrides, and combinations thereof. 7. The hydrogen-storage material formulation of claim 1 , wherein said hydrogen-storage material consists of a material selected from the group consisting of MgH 2 , Mg(BH 4 ) 2 , LiH, LiBH 4 , LiAlH 4 , KBH 4 , NaAlH 4 , and combinations thereof. 8. The hydrogen-storage material formulation of claim 1 , wherein said hydrogen-storage material contains at least 3 wt % hydrogen. 9. The hydrogen-storage material formulation of claim 8 , wherein said hydrogen-storage material contains at least 5 wt % hydrogen. 10. The hydrogen-storage material formulation of claim 1 , wherein said liquid electrolyte has an ionic conductivity at 25° C. of at least 10 −6 S/cm for said at least one ion derived from said hydrogen-storage material. 11. The hydrogen-storage material formulation of claim 10 , wherein said liquid electrolyte has an ionic conductivity at 25° C. of at least 10 −3 S/cm for said at least one ion derived from said hydrogen-storage material. 12. The hydrogen-storage material formulation of claim 1 , wherein said liquid electrolyte is characterized by the property that at a temperature equal to the melting point of said liquid electrolyte, said liquid electrolyte does not react with said hydrogen. 13. The hydrogen-storage material formulation of claim 1 , wherein said liquid electrolyte is a non-aqueous liquid electrolyte. 14. The hydrogen-storage material formulation of claim 1 , wherein said liquid electrolyte comprises a solvent and one or more dissolved salts. 15. The hydrogen-storage material formulation of claim 1 , wherein said liquid electrolyte comprises a molten salt. 16. The hydrogen-storage material formulation of claim 15 , wherein said molten salt comprises one or more halogenated alkali metals. 17. The hydrogen-storage material formulation of claim 15 , wherein said liquid electrolyte further comprises one or more additional dissolved salts. 18. The hydrogen-storage material formulation of claim 1 , wherein said liquid electrolyte is ionically conductive for one or more cations selected from the group consisting of Li + , Mg 2+ , Na + , K + , and Ca 2+ . 19. The hydrogen-storage material formulation of claim 1 , wherein said liquid electrolyte is ionically conductive for one or more anions selected from the group consisting of H − , BH 4 − , AlH 4 − , and (AlH 6 ) 3− . 20. The hydrogen-storage material formulation of claim 1 , wherein said liquid electrolyte contains halogen anions. 21. The hydrogen-storage material formulation of claim 1 , wherein said hydrogen-storage material is characterized by a higher hydrogen evolution rate in the presence of said liquid electrolyte compared to an otherwise-equivalent hydrogen-storage material formulation without said liquid electrolyte, as determined by a Sieverts system utilized to measure the rate of said hydrogen evolution with a temperature ramp from 20° C. to 300° C. over a period of 72 hours. 22. A reversible hydrogen-storage material system, said system comprising: (a) a solid hydrogen-storage material; and (b) a liquid electrolyte that is ionically conductive for at least one ion derived from said hydrogen-storage material, wherein said liquid electrolyte is compositionally different than said hydrogen-storage material, wherein said hydrogen-storage material, in a first state, contains at least one metal and hydrogen that is bonded ionically, covalently, and/or interstitially within said hydrogen-storage material, wherein said hydrogen-storage material, in a second state, contains a dehydrogenated form of said hydrogen-storage material, wherein said liquid electrolyte is selected such that said liquid electrolyte is characterized by the property that at a temperature equal to the melting point of said liquid electrolyte, said liquid electrolyte does not react with said hydrogen-storage material to release said hydrogen, wherein said hydrogen-storage material is in the form of a powder, and wherein said liquid electrolyte occupies space within said powder. 23. The reversible hydrogen-storage material system of claim 22 , wherein said liquid electrolyte is present in a liquid electrolyte concentration from about 1 wt % to about 50 wt % on the basis of combined weight of said hydrogen-storage material and said liquid electrolyte. 24. The reversible hydrogen-storage material system of claim 22 , wherein said hydrogen-storage material is selected from the group consisting of complex metal hydrides, destabilized metal hydrides, metal borohydrides, and combinations thereof. 25. The reversible hydrogen-storage material system of claim 22 , wherein said hydrogen-storage material contains at least 3 wt % hydrogen. 26. The reversible hydrogen-storage material system of claim 22 , wherein said liquid electrolyte is characterized by the property that at a temperature equal to the melting point of said liquid electrolyte, said liquid electrolyte does not react with said hydrogen.