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Stoots, C.M., O'Brien, J.E., Condie, K.G. and Hartvigsen, J.J. (2010) High-temperature electrol-
ysis for large-scale hydrogen production from nuclear energy - Experimental investigations.
International Journal of Hydrogen Energy
, 35, 4861-4870.
Sunmacher, K. (2007)
Molten carbonate fuel cells
. Weinheim: Wiley-VCH, Germany.
Tahil,
W.
(2008)
The trouble with lithium 2; Under the microscope
,
Martainsville,
France:
Meridan International Research.
at:
http://www.meridian-int-res.com/Projects/
Lithium_Microscope.pdf.
Tans, P. (2009) An accounting of the observed increase in oceanic and atmospheric CO
2
and an
outlook for the future.
Oceanography
, 22, 26-35.
Tao, G., Sridhar, K. and Chan, C. (2004) Study of carbon dioxide electrolysis at elec-
trode/electrolyte interface: Part I. Pt/YSZ interface.
Solid State Ionics
, 175, 615-619.
Tao, G., Sridhar, K. and Chan, C. (2004) Study of carbon dioxide electrolysis at elec-
trode/electrolyte interface: Part II. Pt-YSZ cermet/YSZ interface.
Solid State Ionics
, 175,
621-624.
Vayssieres, L., Ed. (2009)
On Solar Hydrogen & Nanotechnology
. Weinheim: John Wiley and
Sons, USA.
Venstrom, L.J. and Davidson, J.H. (2011) Splitting water and carbon dioxide via the hetero-
geneous oxidation of zinc vapor: Thermodynamic considerations.
Journal of Solar Energy
Engineering, 133
, 011017.
Wang, A., Liu, W., Cheng, S., Xing, D., Zhou, J. and Logan, B.E. (2009) Source of methane and
methods to control its formation in single chamber microbial electrolysis cells.
International
Journal of Hydrogen Energy,
34, 3653-3658.
Wang, S., Haarberg, G.M. and Kvalheim, E. (2008) Electrochemical behavior of dissolved Fe
2
O
3
in molten CaCl2-KF.
Journal of Iron and Steel Research, International
, 15, 48-51.
Wang, B., Wu, H., Zhang, G., Licht, S. (2012) STEP wastewater treatment: Solar Thermal
Electrochemical Pollutant Oxidation.
ChemSusChem
. 5, 2000-2010.
Wang, B., Wu, H., Hu, Y., Licht, S. (2013) STEP Pollutant to Solar Hydrogen: Solar
driven thermal electrochemical wastewater treatment with synergetic production of hydrogen
Electrochemical Science Letters
2, H34-H36.
Wentworth, W. and Chen, E. (1976) Simple thermal-decomposition reactions for storage of solar
thermal energy.
Solar Energy
, 18, 205-214.
Woolerton, Y., Sheard, S., Reisner, E., Pierce, E., Ragsdale, S.W. and Armstrong F.A. (2010)
Efficient and clean photoreduction of CO
2
to CO by enzyme-modified TiO
2
Nanoparticles
using visible light.
Journal of the American Chemical Society
, 132, 2132-2133.
Wijayasinghe, A., Bergman, B., and Lagergren, C. (2003) LiFeO
2
-LiCoO
2
-NiO cathodes for
molten carbonate fuel cells. Journal of the
Electrochemical Society
, 150, A558-A564.
Yan, S., Wan, L., Li, Z. and Zou, Z. (2011) Facile temperature-controlled synthesis of hexago-
nal Zn2GeO4 nanorods with different aspect ratios toward improved photocatalytic activity
for overall water splitting and photoreduction of CO
2
.
Chemical Communications
, 47,
5632-5634.
Yano, J., Morita, T., Shimano, K., Nagami, Y. and Yamasaki, S. (2007) Selective ethylene
formation by pulse-mode electrochemical reduction of carbon dioxide using copper and
copper-oxide electrodes.
Journal of Solid State Electrochemistry
, 11, 554-557.
Yuan, B.Y., Kongstein, O.E. and Haarberg, G.M. (2009) Electrowinning of iron in aqueous
alkaline solution using a rotating cathode.
Journal of The Electrochemical Society, 156
,
D64-D69.
Zhang, Z. and Wang, Z., Eds. (2006)
Principles and applications of molten salt electrochemistry
.
Chemical Industry Press, Beijing, China.
Zhou, H., Fan, T. and Zhang, D. (2011) An insight into artificial leaves for sustainable energy
inspired by natural photosynthesis.
ChemCatChem
, 3, 513-528.
Zou, Z., Ye, Y., Sayama, K. and Arakawa, H. (2001) Direct splitting of water under visible light
irradiation with an oxide semiconductor photocatalyst.
Nature
, 414, 625-627.
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