Molten-salt electrolyte unitized regenerative hydrogen-halogen fuel cell with anion transfer

What is claimed is: 1. An electrochemical device comprising: a cell including a molten salt separator between a plurality of chambers, each chamber corresponding to a respective side of the molten salt separator; a fluidic coupling for a first energy component; a fluidic coupling for a second energy component, the first and second energy components adapted for ionic transfer; a stable electrode attached to each side of the separator for defining a two-phase electrochemical interface, the stable electrode resistant to chemical degradation from the first or second energy component or from the molten salt separator, the stable electrode suitable for electron transfer with the energy component in the corresponding chamber and the molten salt separator including a combination of a plurality of molten salts adapted for negative ion transfer, the negative ions further comprising halides, the molten salt separator being a porous ceramic or polymer substrate impregnated with molten salt in a predetermined combination, the combination of salts having a melting point lower than any of the plurality of salts individually the molten salts providing an operating temperature greater than that for supporting aqueous processes and sufficiently low for supporting polymer based containment structures, wherein: the first energy component is bromine; the second energy component is hydrogen; and the molten salt separator is responsive to transfer of negative bromide ions across the separator for providing for providing a potential. 2. The device of claim 1 further comprising a homogeneous catalyst, comprising ionic species dissolved within the molten salt in the molten salt separator. 3. The device of claim 1 wherein the molten salt separator is adapted for negative ion transfer across the molten salt separator to the chamber on the opposed side. 4. The device of claim 1 wherein the molten salts include halides (anions) of alkali metals (cations) selected from the group consisting of bromides of lithium (Li), potassium (K), sodium (Na), caesium (Cs), and transition metals such as zinc (Zn). 5. The device of claim 1 wherein the molten salts include halides (anions) of tetralkyl ammonium (cations) selected from the group consisting of bromides of tetrabutyl ammonium (Bu 4 N + Br − tetraethyl ammonium (Et 4 N + Br − tetramethyl ammonium (Me 4 N + B − halides of organic cations including cyclic amines, aromatic (pyridinium, imidazolium) and saturated (piperidinium, pyrrolidinium), and those based on temperature molten salts based on sulfonium [R 3 S] + and phosphonium [R 4 P] + . 6. The device of claim 1 wherein electrochemical device comprises a fuel cell and the plurality of chambers comprise containment structures including an anode chamber and a cathode chamber, the molten salt separator defining an ionic barrier between the anode chamber and cathode chamber for facilitating a voltage potential between electrodes on the opposed sides of the separator. 7. The device of claim 1 wherein: the first energy component includes chlorine; the second energy component includes hydrogen; and the molten salt separator is responsive to transfer of negative chloride ions across the separator for providing a voltage potential. 8. The device of claim 1 wherein the electrodes are responsive to a voltage potential for reversing the ionic transfer and restoring electrical generation properties of the first and second energy components.