A device for generating oxygen comprising at least one reaction chamber for housing a composition for generating oxygen, the composition comprising a combination of constituents consisting of at least one oxygen source, at least one ionic liquid, and at least one metal oxide compound, means for maintaining at least one of the oxygen source, the ionic liquid and the metal oxide compound physically separated from the remaining constituents, means for establishing physical contact of the oxygen source, the ionic liquid and the metal oxide compound, and means for allowing oxygen to exit the reaction chamber, wherein the metal oxide compound is an oxide of a single metal or of two or more different metals, said metal(s) being selected from the metals of groups 2 to 14 of the periodic table of the elements, and wherein the oxygen source comprises a peroxide compound.

A composition for generating oxygen, comprising at least one oxygen source includes at least one ionic liquid, and at least one metal salt, wherein the oxygen source comprises a peroxide compound, the ionic liquid is in the liquid state at least in a temperature range from 10 C. to +50 C., and the metal salt has an organic and/or an inorganic anion, and comprises one single metal or two or more different metals. The present invention also relates to methods for generating oxygen, and to the use of ionic liquids in oxygen generating compositions.

A composition for generating oxygen, comprising at least one oxygen source includes at least one ionic liquid, and at least one metal salt, wherein the oxygen source comprises a peroxide compound, the ionic liquid is in the liquid state at least in a temperature range from 10 C. to +50 C., and the metal salt has an organic and/or an inorganic anion, and comprises one single metal or two or more different metals. The present invention also relates to methods for generating oxygen, and to the use of ionic liquids in oxygen generating compositions.

A gas-loading and packaging system is provided for loading a solid material used in a hydrogen fuel cell with gas and packaging the solid material in a sealed container. The gas may comprise a hydrogen gas or other gas. The solid material may, for example, comprise palladium, a nickel alloy, platinum, or other metal. The solid material is loaded with gas by exposing the solid material to the gas under high pressure. When the solid material is exposed to gas under pressure, the gas absorbs into or adsorbs onto the solid material. The mass of the solid material is continuously monitored and used to determine when the solid material is loaded with the desired amount of gas. After the solid material is loaded with gas, high pressure is maintained while the solid material is packaged in a sealed container that is capable of retaining the high pressure gas.

A gas-loading and packaging system is provided for loading a solid material used in a hydrogen fuel cell with gas and packaging the solid material in a sealed container. The gas may comprise a hydrogen gas or other gas. The solid material may, for example, comprise palladium, a nickel alloy, platinum, or other metal. The solid material is loaded with gas by exposing the solid material to the gas under high pressure. When the solid material is exposed to gas under pressure, the gas absorbs into or adsorbs onto the solid material. The mass of the solid material is continuously monitored and used to determine when the solid material is loaded with the desired amount of gas. After the solid material is loaded with gas, high pressure is maintained while the solid material is packaged in a sealed container that is capable of retaining the high pressure gas.

A gas-loading and packaging system is provided for loading a solid material used in a hydrogen fuel cell with gas and packaging the solid material in a sealed container. The gas may comprise a hydrogen gas or other gas. The solid material may, for example, comprise palladium, a nickel alloy, platinum, or other metal. The solid material is loaded with gas by exposing the solid material to the gas under high pressure. When the solid material is exposed to gas under pressure, the gas absorbs into or adsorbs onto the solid material. The mass of the solid material is continuously monitored and used to determine when the solid material is loaded with the desired amount of gas. After the solid material is loaded with gas, high pressure is maintained while the solid material is packaged in a sealed container that is capable of retaining the high pressure gas.

The invention relates to a device for generating oxygen, comprising at least one reaction chamber for housing a composition for generating oxygen, the composition comprising an oxygen source formulation and a ionic liquid formulation, the oxygen source formulation comprising a peroxide compound, and the ionic liquid formulation comprising a ionic liquid having a cation and a metallate anion, means for maintaining the oxygen source formulation and the ionic liquid formulation physically separated from each other, means for establishing physical contact of the oxygen source formulation and the ionic liquid formulation, and means for allowing oxygen to exit the reaction chamber.

A device for generating oxygen comprising at least one reaction chamber for housing a composition for generating oxygen, the composition comprising a combination of constituents consisting of at least one oxygen source, at least one ionic liquid, and at least one metal oxide compound, means for maintaining at least one of the oxygen source, the ionic liquid and the metal oxide compound physically separated from the remaining constituents, means for establishing physical contact of the oxygen source, the ionic liquid and the metal oxide compound, and means for allowing oxygen to exit the reaction chamber, wherein the metal oxide compound is an oxide of a single metal or of two or more different metals, said metal(s) being selected from the metals of groups 2 to 14 of the periodic table of the elements, and wherein the oxygen source comprises a peroxide compound.

The present invention is directed to the use of an ionic liquid as a dispersant or solvent and as a heat sink in a composition for generating oxygen, the composition further comprising at least one oxygen source formulation, and at least one metal oxide compound formulation, wherein the oxygen source formulation comprises a peroxide compound, the ionic liquid is in the liquid state at least in a temperature range from 10 C. to +50 C., and the metal oxide compound formulation comprises a metal oxide compound which is an oxide of one single metal or of two or more different metals, said metal(s) being selected from the metals of groups 2 to 14 of the periodic table of the elements.

The present invention relates to a method for generating oxygen, comprising providing at least one oxygen source, providing at least one ionic liquid, the ionic liquid comprising a cation and an anion, wherein the oxygen source is a hydrogen peroxide adduct compound which is at least partially soluble in the ionic liquid, the ionic liquid is in the liquid state at least in a temperature range from 10 C. to +50 C., and the anion is selected from metallate anions, and contacting the oxygen source and the ionic liquid.