Patent Number: 
Section: claims

1. A lattice energy conversion device to convert energy in a material having a lattice structure into ionizing radiation, said lattice energy conversion device comprising;a gas containing hydrogen; andat least one working electrode being formed from a hydrogen host material, said hydrogen host material lying in fluidic contact with said gas, said hydrogen host material having a lattice structure, the lattice structure of said hydrogen host material being occluded with the hydrogen from said gas, such that energy in the lattice structure of the hydrogen host material of said at least one working electrode and the hydrogen with which said lattice structure is occluded produces ionizing radiation. 2. The lattice energy conversion device of claim 1, wherein the hydrogen host material of said at least one working electrode is comprised of at least one of a bulk or a particulate material. 3. The lattice energy conversion device of claim 1, further comprising a vessel in which to confine the gas, said vessel maintaining said gas in said fluidic contact with the hydrogen host material of said at least one working electrode, said vessel including at least one port and at least one valve that communicates with said at least one port by which to control the pressure of the gas confined by said vessel and thereby control the flux of the ionizing radiation. 4. The lattice energy conversion device of claim 3, wherein said vessel is comprised in whole or in part from said hydrogen host material. 5. The lattice energy conversion device of claim 1, further comprising a source of heat to apply heat to and thereby increase the energy in the lattice structure of the hydrogen host material and in the hydrogen with which said hydrogen host material is occluded. 6. The lattice energy conversion device of claim 1, further comprising a magnetic field generator to produce a magnetic field, said at least one working electrode lying in said magnetic field by which to control the energy in the lattice structure of the hydrogen host material of said at least one working electrode and in the hydrogen with which said hydrogen host material is occluded. 7. The lattice energy conversion device of claim 1, further comprising an electric field generator to produce an electric field, at least one of said at least one working electrode or said gas lying in said electric field by which to control the flux of the ionizing radiation and ions of said ionizing radiation. 8. The lattice energy conversion device of claim 1, wherein the hydrogen host material of said at least one working electrode is formed from one of palladium or an alloy of palladium. 9. The lattice energy conversion device of claim 1, wherein the hydrogen host material of said at least one working electrode is formed from one of nickel or an alloy of nickel. 10. The lattice energy conversion device of claim 1, wherein the hydrogen host material of said at least one working electrode is formed from one of iron or an alloy of nickel. 11. The lattice energy conversion device of claim 1, wherein the hydrogen host material of said at least one working electrode is an electrodeposition formed from an aqueous plating solution. 12. A lattice energy conversion device to convert energy in a material having a lattice structure into at least one of a voltage or a current, said lattice energy conversion device comprising:a gas containing hydrogen;at least one working electrode being formed from a hydrogen host material, said hydrogen host material lying in fluidic contact with said gas, said hydrogen host material having a lattice structure, the lattice structure of said hydrogen host material being occluded with the hydrogen from said gas, such that energy in the lattice structure of the hydrogen host material of said at least one working electrode and the hydrogen with which said lattice structure is occluded produce ionizing radiation, said ionizing radiation ionizing the gas that lies in said fluidic contact with the hydrogen host material of said at least one working electrode; andat least one counter electrode being physically separated from said at least one working electrode, said at least one counter electrode lying in fluidic contact with the ionizing radiation and with the gas that is ionized by said ionizing radiation so that at least one of a voltage is produced across or a current is generated through an electrical load impedance that is connected between said at least one working electrode and said at least one counter electrode. 13. The lattice energy conversion device of claim 12, further comprising a vessel in which to contain each of the hydrogen host material of said at least one working electrode and said at least one counter electrode, said vessel confining the gas such that said gas lies in said fluidic contact with the hydrogen host material of said at least one working electrode and in fluid contact with said at least one counter electrode, wherein said vessel includes at least one port and at least one valve that communicates with said at least one port by which to control the pressure of the gas confined by said vessel to control the flux of the ionizing radiation and ions of said ionizing radiation whereby at least one of said voltage is produced across or said current is generated through the electrical load impedance. 14. The lattice energy conversion device of claim 13, wherein said vessel is comprised in whole or in part of said at least one counter electrode. 15. The lattice energy conversion device of claim 13, wherein said vessel is comprised in whole or in part of the hydrogen host material from which said at least one working electrode is formed. 16. The lattice energy conversion device of claim 12, wherein said counter electrode is comprised of a voltaic material that is adapted to collect energy from the ionizing radiation produced by said at least one working electrode. 17. A lattice energy conversion device to convert energy in a material having a lattice structure into at least one of a voltage or a current, said lattice energy conversion device comprising:a gas containing hydrogen;at least one working electrode being formed from a hydrogen host material, said hydrogen host material lying in fluidic contact with said gas, said hydrogen host material having a lattice structure, the lattice structure of said hydrogen host material being occluded with the hydrogen from said gas, such that energy in the lattice structure of the hydrogen host material and the hydrogen with which said lattice structure is occluded produce ionizing radiation, said ionizing radiation ionizing the gas that lies in said fluidic contact with the hydrogen host material of said at least one working electrode; andat least two counter electrodes being physically separated from each other and from said at least one working electrode, said at least two counter electrodes lying in fluidic contact with the gas ionized by said ionizing radiation, said at least two counter electrodes producing at least one of a voltage between said at least two counter electrodes or a current through an electrical load impedance that is connected between said at least two counter electrodes. 18. The lattice energy conversion device of claim 17, wherein the hydrogen host material of said at least one working electrode is formed from one of a bulk or a particulate material. 19. The lattice energy conversion device of claim 17, further comprising a vessel in which to contain each of the hydrogen host material of said at least one working electrode and said at least two counter electrodes, said vessel confining the gas such that said gas lies in said fluidic contact with the hydrogen host material of said at least one working electrode and in fluid contact with said at least two counter electrodes, wherein said vessel includes at least one port and at least one valve that communicates with said at least one port by which to control the pressure of the gas confined by said vessel to thereby control the flux of the ionizing radiation or ions of said ionizing radiation. 20. The lattice energy conversion device of claim 17, wherein said at least two counter electrodes lie within a magnetic field by which to alter the motion of the said ionized gas, ionized by said ionizing radiation, when said ionized gas lies in said fluidic contact with said at least two counter electrodes.