TY - JOUR
T1 - Overall water splitting over Pt/TiO2 catalyst with Ce3+/Ce4+ shuttle charge transfer system
AU - Kozlova, Ekaterina A.
AU - Korobkina, Tatyana P.
AU - Vorontsov, Alexander V.
PY - 2009/1
Y1 - 2009/1
N2 - The experiments on photocatalytic hydrogen production from aqueous solution of Ce2(SO4)3 and photocatalytic oxygen production from aqueous solution of Ce(SO4)2 were carried out on the same catalyst platinized Degussa P25. Pure oxygen was shown to evolve from Ce(SO4)2 solution and pure hydrogen from Ce2(SO4)3 solution with stoichiometric formation of Ce2(SO4)3 and Ce(SO4)2, respectively. The rate of photocatalytic hydrogen production was lower than the rate of photocatalytic oxygen production on the same catalyst. The influence of initial cerium salt concentration, acidity and catalyst loading was checked for photocatalytic oxygen and hydrogen production. The dependences of the hydrogen and oxygen production rate on Ce3+ and Ce4+ concentration have maxima. Kinetic equation for the rate of photocatalytic oxygen production was proposed that takes into account the inner filter effect; constants of this equation were calculated. Optimal conditions for photocatalytic reactions were found and explained. The shuttle charge transfer regime was tested for consecutive O2 and H2 production over the same and different portions of catalyst and same Ce3+/Ce4+ system. It was found that separate catalyst batches are needed to avoid mixed evolution of hydrogen and oxygen.
AB - The experiments on photocatalytic hydrogen production from aqueous solution of Ce2(SO4)3 and photocatalytic oxygen production from aqueous solution of Ce(SO4)2 were carried out on the same catalyst platinized Degussa P25. Pure oxygen was shown to evolve from Ce(SO4)2 solution and pure hydrogen from Ce2(SO4)3 solution with stoichiometric formation of Ce2(SO4)3 and Ce(SO4)2, respectively. The rate of photocatalytic hydrogen production was lower than the rate of photocatalytic oxygen production on the same catalyst. The influence of initial cerium salt concentration, acidity and catalyst loading was checked for photocatalytic oxygen and hydrogen production. The dependences of the hydrogen and oxygen production rate on Ce3+ and Ce4+ concentration have maxima. Kinetic equation for the rate of photocatalytic oxygen production was proposed that takes into account the inner filter effect; constants of this equation were calculated. Optimal conditions for photocatalytic reactions were found and explained. The shuttle charge transfer regime was tested for consecutive O2 and H2 production over the same and different portions of catalyst and same Ce3+/Ce4+ system. It was found that separate catalyst batches are needed to avoid mixed evolution of hydrogen and oxygen.
KW - "Shuttle-redox" systems
KW - Hydrogen production
KW - Photocatalysis
KW - Pt
KW - TiO
UR - http://www.scopus.com/inward/record.url?scp=57949105831&partnerID=8YFLogxK
U2 - 10.1016/j.ijhydene.2008.09.101
DO - 10.1016/j.ijhydene.2008.09.101
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AN - SCOPUS:57949105831
SN - 0360-3199
VL - 34
SP - 138
EP - 146
JO - International Journal of Hydrogen Energy
JF - International Journal of Hydrogen Energy
IS - 1
ER -