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Babu, V.J., Kumar, M.K., Nair, A.S., Khen, T.L., Allakhverdiev, S.I. and Ramakrishna, S.
(2012) Visible light photocatalytic water splitting for hydrogen production from N-TiO
2
rice
grain shaped electrospun nanostructures.
International Journal of Hydrogen Energy
, 37,
8897-8904.
Bak, T., Nowotny, J., Rekas, M. and Sorrell, C.C. (2002) Photo-electrochemical hydrogen
generation from water using solar energy. Materials-related aspects.
International Journal of
Hydrogen Energy
, 27, 991-1022.
Bansal, A., Beach, J., Collins, R., Khaselev, O. and Turner, J.A. (1999) Photoelectrochemical
based direct conversion systems for hydrogen production.
In: Proceedings of the 1999Hydro-
gen Program Review
. US. Department of Energy National Renewable Energy Laboratory
NREL/CP-570-26938.
Bard, A.J. and Fox, M.A. (1995) Artificial photosynthesis: Solar splitting of water to hydrogen
and oxygen.
Accounts of Chemical Research
, 28, 141-145.
Bard, A.J. and Faulkner, L.R. (2001)
Electrochemical Methods Fundamentals and Applications
.
2nd ed., John Wiley & Sons, New York.
Barsoukov, E. and Macdonald, J.R. (2005)
Impedance Spectroscopy: Theory, Experiment, and
Applications
. 2nd ed., Wiley-Interscience, Hoboken, N.J.
Becquerel, A.E. (1839) Mémoire sur les effets électriques produits sous l'influence des rayons
solaires.
Comptes Rendus des Séances Hebdomadaires
, 9, 561-567.
Bilgen, E. (2001) Solar hydrogen from photovoltaic-electrolyzer systems.
Energy Conversion
and Management
, 42, 1047-1057.
Bisquert, J. (2002) Theory of the impedance of electron diffusion and recombination in a thin
layer.
The Journal of Physical Chemistry B
, 106, 325-333.
Bisquert, J. (2003) Chemical capacitance of nanostructured semiconductors: its origin and
significance for nanocomposite solar cells.
Physical Chemistry Chemical Physics
,5,
5360-5364.
Bolton, J.R., Strickler, S.J. and Connolly, J.S. (1985) Limiting and realizable efficiencies of solar
photolysis of water.
Nature
, 316, 495-500.
Brillet, J., Cornuz, M., Le Formal, F., Yum, J.-H., Grätzel, M. and Sivula, K. (2010) Examining
architectures of photoanode-photovoltaic tandem cells for solar water splitting.
Journal of
Materials Research
, 25, 8.
Brillet, J., Grätzel, M. and Sivula, K. (2010) Decoupling feature size and functionality in solution-
processed, porous hematite electrodes for solar water splitting.
Nano Letters
, 10, 4155-4160.
Butler, M.A. (1977) Photoelectrolysis and physical properties of the semiconducting electrode
WO
3
.
Journal of Applied Physics
, 48, 1914-1920.
Chandra, N., Wheeler, B.L. and Bard, A.J. (1985) Semiconductor electrodes. 59. Photocurrent
efficiencies at p-InP electrodes in aqueous solutions.
The Journal of Physical Chemistry
, 89,
5037-5040.
Chang, B.-Y. and Park, S.-M. (2010) Electrochemical impedance spectroscopy.
Annual Review
of Analytical Chemistry
, 3, 207-229.
Chen, Z., Jaramillo T.F., Deutsch, T.G., Kleiman-Shwarsctein, A., Forman, A.J., Gaillard, N.,
Garland, R., Takanabe, K., Heske, C., Sunkara, M., McFarland, E.W., Domen, K., Miller, E.
L., Turner, J.A. and Dinh, H.N. (2010) Accelerating materials development for photoelectro-
chemical hydrogen production: Standards for methods, definitions, and reporting protocols.
Journal of Materials Research
, 25, 3-16.
Coelho, B., Oliveira, A.C. and Mendes, A. (2010) Concentrated solar power for renewable
electricity and hydrogen production from water—a review.
Energy &Environmental Science
,
3, 1398-1405.
Conibeer, G.J. and Richards, B.S. (2007) A comparison of PV/electrolyser and photoelectrolytic
technologies for use in solar to hydrogen energy storage systems.
International Journal of
Hydrogen Energy
, 32, 2703-2711.
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