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Chu, D., Qin, G., Yuan, X., Xu, M., Zheng, P. and Lu, J. (2008) Fixation of CO
2
by electro-
catalytic reduction and electropolymerization in ionic liquid-H
2
O solution.
Chemistry and
Sustainability,
1, 205-209.
Chueh, W. and Haile, S. (2010) A Thermochemical study of ceria: Exploiting and old materials
for new modes of energy conversion and CO
2
mitigation.
Philosophical Transactions of the
Royal Society A, 368,
3269-3294.
Collongues, R. and Chaudron, G. (1950) Sur la preparation des ferrites de lithium.
Comptes
Rendus,
124, 143-145.
Cui, B. and Licht, S. (2013) Critical STEP advances for sustainable iron production
Green
Chemistry
15(4), 881-884, with 16 page online supplementary information.
Currao, A. (2007) Photoelectrochemical water splitting.
Chimia,
61, 815-819.
deBethune, A.J. and Licht, S. (1959) The temperature coefficients of electrode potentials.
Journal of the Electrochemical Society,
106, 616-625.
Delacourt, C. and Newman, J. (2010) Mathematical modeling of CO
2
reduction to CO in
aqueous electrolytes.
Journal of the Electrochemical Society
, 157, B1911-B1926.
Demirci, G. and Karakaya, I. (2008) Electrolytic magnesium production and its hydrodynamics
by using an Mg-Pb alloy cathode.
Journal of Alloys and Compounds
, 465, 255-260.
Dufek, E., Lister, T. and McIlwain, M. (2011) Bench-scale electrochemical system for generation
of CO and syn-gas.
Journa. Applied Electrochemestry
, 41, 623-631.
Ebbesen, S., Graves, C., Hausch, A., Jensen, S.H. and Mogensen, M. (2010) Poisoning of
solid oxide electrolysis cells by impurities.
Journal of the Electrochemical Society
, 157,
B1419-B1429.
Elschenbroich, C. and Salzer, A. (1992)
Organometallics
. 2nd Ed., Wiley-VCH, Weinheim,
Germany.
Energy Innovations (2012) at: http://www.energyinnovations.com/
Erstfeld, T. (1979) Carbon dioxide electrolysis using a ceramic electrolyte for space processing.
AIAA Paper 79-1375, 1.
Eustis, F. A. (1922) Electrolytic i
ron
from sulfide ores.
Chemical and Metallurgical Engineering
,
27, 684.
Fu, Q., Mabilat, C., Zahid, M., Brisse, A. and Gautier, L. (2010) Syngas production via high-
temperature steam/CO
2
co-electrolysis: an economic assessment.
Energy and Environmental
Science
, 3, 1382-1397.
Fujishima, A. and Honda, K. (1972) Electrochemical photolysis of water at a semiconductor
electrode.
Nature
, 238, 37-38.
Gangeri, M., Perathoner, S., Caudo, S., Centi, G., Amadou, J., Begin, D., Pham-Huu, C.,
Ledoux, M.J., Tessonnier, J.P., Su, D.S. and Schologl, R. (2009) Fe and Pt carbon nanotubes
for the electrocatalytic conversion of carbon dioxide to oxygenates.
Catalysis Today
, 143,
57-63.
Graves, C., Ebbsen, S., Mogensen, M. and Lackner, K.S. (2011) Sustainable hydrocarbon fuels
by recycling CO
2
and H
2
O with renewable or nuclear energy.
Renewable and Sustainable
Energy Reviews
, 15, 1-23.
Green, M., Emery, K., Hishikawa, Y. and Warta, W. (2011) Solar cell efficiency tables.
Progress
in Photovoltaics: Research and Applications
, 19, 84-92.
Green, R. Liu, C. and Adler, S. (2008) Carbon dioxide reduction on gadolinia-doped ceria
cathodes.
Solid State Ionics
, 179, 647-660.
Haarberg, G.M., Kvalheim, E., Rolseth, S., Murakami, T., Pietrzykd, S. and Wange, S. (2007)
Electrodeposition of iron from molten mixed chloride/fluoride electrolytes.
ECS Transactions
3, 341-345.
Hori, Y., Konishi, H., Futamura, T., Murata, A., Koga, O., Sakurai, H. and Oguma, H. (2005)
Deactivation of copper electrode in electrochemical reduction of CO
2
.
Electrochimica Acta
,
50, 5354-5369.
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