Hydrogen oxidation electrodes and electrochemical cells including the same

What is claimed is: 1 . A hydrogen oxidation reaction (HOR) electrode comprising: a substrate; and a catalyst layer disposed on the substrate. 2 . The HOR electrode of claim 1 , wherein the catalyst layer comprises a catalyst represented by the formula: M1 x M2 y M3 z , wherein: x+y+z=1; M1 comprises a first transition metal; M2 comprises a second transition metal; and M3 comprises a third transition metal or metalloid. 3 . The HOR electrode of claim 2 , wherein M1 is comprises Ni, M2 comprises Mo, Co, or combinations thereof, and M3 comprises C, Cu, N, Si, Al, or combinations thereof. 4 . The HOR electrode of claim 1 , wherein the catalyst layer comprises nickel nanoparticles supported on carbon nanotubes. 5 . The HOR electrode of claim 1 , wherein: the catalyst layer comprises Ni, Al, and a transition metal (MT), at an Ni:Al:MT weight percent ratio of about 49:49:2; and MT comprises Fe, Cu, Ti, Cr, La, or combinations thereof. 6 . The HOR electrode of claim 1 , wherein the catalyst layer comprises a noble metal. 7 . The HOR electrode of claim 6 , wherein the catalyst layer comprises Pt, Pd, Au, and/or Ag. 8 . The HOR electrode of claim 6 , wherein the catalyst layer comprises the noble metal mixed with electronically conductive carbon. 9 . The HOR electrode of claim 6 , wherein the catalyst layer comprises the noble metal and another one or more metal catalysts. 10 . The HOR electrode of claim 9 , wherein the one or more metal catalysts are transition metals. 11 . The HOR electrode of claim 9 , wherein the one or more metal catalysts comprise Ni. 12 . An electrochemical cell comprising: a battery negative electrode; a hydrogen oxidation reaction (HOR) electrode; an oxygen evolution reaction (OER) electrode; an oxygen reduction reaction (ORR) electrode; and an electrolyte. 13 . The electrochemical cell of claim 12 , wherein the battery negative electrode, OER electrode, and ORR electrode are all disposed in the electrolyte. 14 . The electrochemical cell of claim 12 , wherein the battery negative electrode, HOR electrode, OER electrode, and ORR electrode are all disposed in the electrolyte. 15 . The electrochemical cell of claim 13 , wherein the battery negative electrode comprises Fe, Zn, Mg, Al, or Cd. 16 . The electrochemical cell of claim 13 , wherein the battery negative electrode comprises direct reduced iron (DRI), sponge iron, atomized iron, or carbonyl iron. 17 . The electrochemical cell of claim 16 , wherein: the OER electrode comprises a metal; and the HOR electrode comprises a metal, a metal and a catalyst, carbon, or carbon and a catalyst. 18 . The electrochemical cell of claim 17 , wherein the cell is configured to direct hydrogen gas from the battery negative electrode to the HOR electrode. 19 . The electrochemical cell of claim 18 , wherein the electrolyte comprises water and one or more hydroxide salts. 20 . An electrochemical cell comprising: a first electrode; a second electrode; and a third electrode, wherein at least one of the first electrode, the second electrode, and the third electrode are configured to operate as a battery negative electrode or a hydrogen oxidation reaction (HOR) electrode when the electrochemical cell is operating in a charge mode. 21 . The electrochemical cell of claim 20 , wherein the first electrode operates as the battery negative electrode in the charge mode and the second electrode operates as an oxygen evolution reaction (OER) electrode in the charge mode. 22 . The electrochemical cell of claim 20 , wherein the third electrode is a dual hydrogen oxidation reaction (HOR) electrode and an oxygen reduction reaction (ORR) electrode. 23 . The electrochemical cell of claim 20 , wherein the third electrode is an oxygen reduction reaction (ORR) electrode. 24 . The electrochemical cell of claim 20 , wherein: the second electrode operates as a HOR electrode and the third electrode operates as an oxygen reduction reaction (ORR) electrode in a discharge mode; and the second electrode operates as an oxygen evolution reaction (OER) electrode and the third electrode operates as a HOR electrode in the charge mode. 25 . The electrochemical cell of claim 24 , wherein the first electrode comprises Fe, Zn, Mg, Al, or Cd. 26 . The electrochemical cell of claim 24 , wherein the first electrode comprises direct reduced iron (DRI), sponge iron, atomized iron, or carbonyl iron. 27 . The electrochemical cell of claim 20 , wherein the first electrode operates as the battery negative electrode in both the charge and discharge mode and the second electrode operates as a battery positive electrode in both charge and discharge mode. 28 . The electrochemical cell of claim 27 , wherein the second electrode is comprised of manganese dioxide, carbon, and a polymeric binder. 29 . The electrochemical cell of claim 20 , wherein the cell is configured to direct hydrogen gas to an electrode operating as the HOR electrode. 30 . The electrochemical cell of claim 29 , wherein the electrolyte comprises water and one or more hydroxide salts. 31 . The electrochemical cell of claim 20 , wherein at least one of the first electrode, the second electrode, and the third electrode comprises a catalyst comprising a noble metal. 32 . The electrochemical cell of claim 31 , wherein the catalyst comprises Pt, Pd, Au, and/or Ag. 33 . The electrochemical cell of claim 31 , wherein the catalyst comprises the noble metal mixed with electronically conductive carbon. 34 . The electrochemical cell of claim 31 , wherein the catalyst comprises the noble metal and another one or more metal catalysts. 35 . The electrochemical cell of claim 34 , wherein the one or more metal catalysts are transition metals. 36 . The electrochemical cell of claim 34 , wherein the one or more metal catalysts comprise Ni. 37 . An electrochemical cell, comprising: a mechanical housing or vessel; and a hydrogen absorption or storage material disposed within the mechanical housing or vessel. 38 . The electrochemical cell of claim 37 , wherein the hydrogen absorption or storage material is coated or attached to an inside face of the mechanical housing or vessel, the hydrogen absorption or storage material is coated on the inside of a lid or vertically oriented inner wall of the electrochemical cell, the hydrogen absorption or storage material is contained in a box or cartridge having vents that allow hydrogen gas to permeate to the hydrogen absorption or storage material therein, or the hydrogen absorption or storage material is mixed with or impregnated into an electrode of the electrochemical cell. 39 . The electrochemical cell of claim 38 , wherein the hydrogen absorption or storage material is a metal hydride. 40 . The electrochemical cell of claim 39 , wherein the hydrogen absorption or storage material is MgH 2 , NaAlH 4 , LiAH 4 , LiH, LaNi 5 H 6 , TiFeH 2 , LiNH 2 , LiBH 4 , NaBH 4 , ammonia borane, or palladium hydride. 41 . The electrochemical cell of claim 40 , wherein the hydrogen absorption or storage m