Non-uniform doping of photoelectrochemical cell electrodes

The invention claimed is: 1. A photo-electrochemical (PEC) cell electrode being in a form of a thin film electrode having a bulk portion and a surface portion composed of the same catalytic material, wherein at least one of the bulk portion and the surface portion of the electrode is doped with at least one dopant, and wherein said doping is non-uniform along an axis perpendicular to the surface portion and a thickness of the electrode, wherein the electrode is configured to catalyze a single one of water splitting half-cell reactions and wherein the surface portion of the electrode is configured to contact an electrolyte of the PEC cell. 2. The electrode according to claim 1 , wherein the catalytic material is selected from the group consisting of α-Fe 2 O 3 , TiO 2 , NiOOH, NiO 2 , SrTiO, BaTiO, GaN, GaAs, MoS, WSe, MoSe, ZnO, WO 3 , Si, Cu 2 O, GaP, GaInP 2 , CuGaSe, 3C—SiC, and α-SiC. 3. The electrode according to claim 1 , wherein the at least one dopant is selected from the group consisting of Pt, Ti, Zn, Nb, Ni, Co, Mn, Cu, Si, Sr, La, Al, Sn, Cr, Mo, Mg, Ta, and Fe. 4. The electrode according to claim 1 , wherein the bulk portion and the surface portion are doped with the at least one dopant, and wherein the concentration of the at least one dopant in at least a fraction of the bulk portion is different than the concentration of the at least one dopant in the surface portion. 5. The electrode according to claim 4 , wherein the difference in the concentration of the at least one dopant in at least a fraction of the bulk portion and in the surface portion is above about 50%. 6. The electrode according to claim 4 , wherein the electrode material is an n-type material and the at least one dopant is an n-type dopant or wherein the electrode material is a p-type material and the at least one dopant is an p-type dopant; and wherein the concentration of the at least one dopant in at least a fraction of the bulk portion is higher than the concentration of the at least one dopant in the surface portion. 7. The electrode according to claim 6 , wherein the concentration of the at least one dopant in at least a fraction of the bulk portion decreases in a gradient towards the surface portion. 8. The electrode according to claim 1 , wherein the bulk portion is doped with the at least one dopant and the surface portion is not doped. 9. The electrode according to claim 8 , wherein the electrode material is an n-type material and the at least one dopant is an n-type dopant or wherein the electrode material is a p-type material and the at least one dopant is a p-type dopant. 10. The electrode according to claim 8 , wherein the concentration of the at least one dopant in the bulk portion decreases in a gradient towards the surface portion. 11. The electrode according to claim 1 , wherein the surface portion is doped with the at least one dopant and the bulk portion is not doped. 12. The electrode according to claim 11 , wherein the electrode material is an n-type material and the at least one dopant is a p-type dopant or wherein the electrode material is a p-type material and the at least one dopant is an n-type dopant. 13. The electrode according to claim 1 , wherein at least a fraction of the bulk portion is doped with a first dopant and the surface portion is doped with a second dopant. 14. The electrode according to claim 13 , wherein the electrode material is an n-type material, the first dopant is an n-type dopant, and the second dopant is a p-type dopant; or the electrode material is a p-type material, the first dopant is a p-type dopant, and the second dopant is an n-type dopant. 15. The electrode according to claim 14 , wherein the concentration of the first dopant decreases in a gradient towards the surface portion and the concentration of the second dopant decreases in a gradient towards the bulk portion. 16. The electrode according to claim 1 , composed of α-Fe 2 O 3 , wherein the bulk portion is doped with Pt and the surface portion is not doped or doped with Ni or Co. 17. The electrode according to claim 1 , composed of α-Fe 2 O 3 , wherein at least a fraction of the bulk portion is doped with Ti and the surface portion is doped with Zn. 18. The electrode according to claim 1 , composed of α-Fe 2 O 3 , wherein the bulk portion is doped with Ti and the surface portion is not doped. 19. The electrode according to claim 1 , wherein the electrode is selected from the group consisting of an anode, photoanode, cathode and photocathode. 20. A photo-electrochemical (PEC) cell comprising the electrode according to claim an electrolyte, and a substrate, wherein the surface portion of the electrode contacts the electrolyte and the bulk portion contacts the substrate.