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Hydrogen solar production

Pandey RN, Misra M, Srivastava ON (1998) Solar hydrogen production using semiconductor septum (n-CdSe/n and n-U02/Ti) electrode based photoelectrochemical solar cells. Int J Hydrogen Energy 23 861-865... [Pg.304]

BorreU L, Cervera-March S, Gimenez J, Simarro R, Andujar JM (1992) A comparative study of CdS-based semiconductor photocatalysts for solar hydrogen production from sulphide + sulphite substrates. Sol Energy Mater Sol Cells 25 25-39... [Pg.305]

Berman, A., Karn, R., and Epstein, M., Steam reforming of methane on Ru-catalysts for solar hydrogen production, Abstracts of 232 ACS National Meeting, Paper FUEL-140, Amer. Chem. Soc. San Francisco, CA, 2006. [Pg.97]

In 1986, the Federal Republic of Germany and Saudi Arabia signed an agreement to co-operate in research, development and application in the field of solar hydrogen production (HYSOLAR). [Pg.35]

Arakawa, H., Sayama, K. 2000. Solar hydrogen production significant effect of Na CO, addition on water splitting using simple oxide semiconductor photocatalysts. Catal Surv Jpn 4 75-80. [Pg.153]

Huang, C., Raissi, T.-A. 2005. Analysis of sulfur-iodine thermochemical cycle for solar hydrogen production. Part I decomposition of sulfuric acid. Solar Energy 78 632-646. [Pg.155]

Midilli, A., Olgun, H., Ayhan, T. 2000. Solar hydrogen production from hazelnut shells. Int J Hydrogen Energy 25 723-732. [Pg.157]

Steinfeld A (2002) Solar hydrogen production via a two-step water-splitting thermochemical cycle based on Zn/ZnO redox reactions. Int J Hydrogen Energy 27 611-619... [Pg.100]

Bilgen E (1988) Solar hydrogen production by hybrid thermochemical processes, Solar Energy 41 199-206... [Pg.103]

Fig. 3.1 Solar hydrogen production via photoelectrolysis, with enormous potential for providing a renewable and clean energy carrier. Fig. 3.1 Solar hydrogen production via photoelectrolysis, with enormous potential for providing a renewable and clean energy carrier.
Jaramillo TE, Baeck SH, Shwarsctein AK, Choi KS, Stucky GD, McFarland EW (2005) Automatated electrochemical synthesis and photoelectrochemical characterization of Zni-xCOxO thin film for solar hydrogen production. J Comb Chem 7 264-271... [Pg.181]

Other non-oxide semiconductors such as ZnS doped with Cu (Zn0.957Cu0.043S) [42], doped with Ni (Zn0.999Ni0.001S) [155] and codoped with Pb [156] have shown excellent solar hydrogen production in the presence, respectively, of aqueous potassium sulfite... [Pg.457]

Ternary semiconductors of the I-III-VI groups (I = Cu, Ag III = Al, Ga, In VI = S, Se, Te) with a chalcopyrite structure have attracted attention as new functional materials for solar hydrogen production [164-167]. With the aim of capturing a larger fraction of solar light, solid solutions of two or more sulfides were prepared. A... [Pg.458]

Milczarek G, Kasuya A, Mamykin S, Aral T, Shinoda K, Tohji K (2003) Optimization of a two-compartment photoelectrochemical cell for solar hydrogen production. Int J Hydrogen Energy 28 919-926... [Pg.475]

DSSC-based Tandem Cell for Solar Hydrogen Production... [Pg.506]

Solar Hydrogen Production Using Na2C03 Addition Method... [Pg.130]

SOLAR HYDROGEN PRODUCTION IN ALGERIA PERSPECTIVES AND APPLICATIONS... [Pg.161]

See other pages where Hydrogen solar production is mentioned: [Pg.749]    [Pg.280]    [Pg.120]    [Pg.120]    [Pg.520]    [Pg.220]    [Pg.373]    [Pg.373]    [Pg.433]    [Pg.440]    [Pg.444]    [Pg.446]    [Pg.446]    [Pg.500]    [Pg.507]    [Pg.88]    [Pg.108]    [Pg.54]    [Pg.55]    [Pg.130]    [Pg.131]    [Pg.306]    [Pg.489]    [Pg.426]    [Pg.163]   
See also in sourсe #XX -- [ Pg.117 ]

See also in sourсe #XX -- [ Pg.39 ]



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