Back-illuminated photoelectrochemical cell

1 . A photoelectrochemical cell comprising: a cathode comprising a first semiconductor, a front cathode surface, and a back cathode surface opposite the front surface; an anode comprising a second semiconductor or a metal, and a front anode surface, a back anode surface opposite the front surface; an electrically conductive material connecting the cathode and the anode; and an optical waveguide comprising a proximal end coupled to the back cathode surface and to the back anode surface, and a distal end configured to couple sunlight into the waveguide; wherein the cathode is adapted for photoelectric generation of electrons at the back cathode surface and electrolytic generation of hydrogen at the front cathode surface; wherein the anode is adapted for photoelectric generation of electrons at the back anode surface and electrolytic generation of oxygen at the front anode surface. 2 . The photoelectrochemical cell of claim 1 wherein the cathode comprises semiconductor materials with different band gaps at the front cathode surface and the back cathode surface. 3 . The photoelectrochemical cell of claim 2 wherein a back bandgap at the back cathode surface is optimized for photoelectric generation of electron hole pairs by incident sunlight, and wherein a front bandgap at the front cathode surface is optimized for electrolytic production of hydrogen. 4 . The photoelectrochemical cell of claim 1 where the cathode comprises a single crystalline, polycrystalline, or noncrystalline semiconductor. 5 . The photoelectrochemical cell of claim 1 where the cathode comprises a Group IV semiconductor. 6 . The photoelectrochemical cell of claim 5 where the cathode comprises Si, SiC, or SiGe. 7 . The photoelectrochemical cell of claim 1 where the cathode comprises a Group III-V semiconductor. 8 . The photoelectrochemical cell of claim 7 where the cathode comprises GaAs, GaP, InP, InGaP, CuInGaSn. 9 . The photoelectrochemical cell of claim 1 where the cathode comprises a Group II-VI semiconductor. 10 . The photoelectrochemical cell of claim 9 where the cathode comprises CdSe, ZnS, or CdTe. 11 . The photoelectrochemical cell of claim 1 where the cathode comprises a metal oxide. 12 . The photoelectrochemical cell of claim 11 where the cathode comprises Cu 2 O. 13 . The photoelectrochemical cell of claim 1 where the anode comprises a Group II-VI semiconductor 14 . The photoelectrochemical cell of claim 13 where the anode comprises ZnSe. 15 . The photoelectrochemical cell of claim 1 where the anode comprises a metal oxide. 16 . The photoelectrochemical cell of claim 15 where the anode comprises ZnO, WO 3 , TiO 3 , FeTiO 3 , In 2 O 3 , SrTiO 3 , or KTaO 3 . 17 . The photoelectrochemical cell of claim 1 where the anode comprises Pt, Ru, Ni, Fe, Cr, Au, Cu, or Ag. 18 . The photoelectrochemical cell of claim 1 wherein the electrically conductive material is embedded in the optical waveguide. 19 . The photoelectrochemical cell of claim 1 further comprising a tapered optical waveguide concentrator at a distal end of the optical waveguide. 20 . The photoelectrochemical cell of claim 1 further comprising a first housing encompassing the cathode, and a second housing encompassing the anode.