Environmental Engineering Reference
In-Depth Information
method on the dispersion of copper in Cu/TiO
2
.
Journal of Catalysis
1997
,
165
(2),
129-139.
46. Coloma, F., Marquez, F., Rochester, C.H., Anderson, J.A. Determination of the nature
and reactivity of copper sites in Cu-TiO
2
catalysts.
Physical Chemistry Chemical Physics
2000
,
2
(22), 5320-5327.
47. Arunajatesan, V., Subramaniam, B., Hutchenson, K.W., Herkes, F.E. In situ FTIR inves-
tigations of reverse water gas shift reaction activity at supercritical conditions.
Chemical
Engineering Science
2007
,
62
(18-20), 5062-5069.
48. Park, J.N., McFarland, E.W. A highly dispersed Pd-Mg/SiO
2
catalyst active for methana-
tion of CO2.
Journal of Catalysis
2009
,
266
(1), 92-97.
49. Peebles, D.E., Goodman, D.W., White, J.M. Methanation of carbon-dioxide on Ni(100)
and the effects of surface modifiers.
Journal of Physical Chemistry
1983
,
87
(22),
4378-4387.
50. Marwood, M., Doepper, R., Renken, A., In-situ surface and gas phase analysis for kinetic
studies under transient conditions: The catalytic hydrogenation of CO
2
.
Applied Catalysis
A: General
1997
,
151
(1), 223-246.
51. Lapidus, A.L., Gaidai, N.A., Nekrasov, N.V., Tishkova, L.A., Agafonov, Y.A., Myshen-
kova, T.N. The mechanism of carbon dioxide hydrogenation on copper and nickel cata-
lysts.
Petroleum Chemistry
2007
,
47
(2), 75-82.
52. Fujita, S., Terunuma, H., Kobayashi, H., Takezawa, N. Methanation of carbon-monoxide
and carbon-dioxide over nickel-catalyst under the traisnet state.
Reaction Kinetics and
Catalysis Letters
1987
,
33
(1), 179-184.
53. Schild, C., Wokaun, A., Baiker, A. On the mechanim of CO and CO
2
hydrogenation
reactions on zirconia-supported catalysts: A diffuse reflectance FTIR study. 2. Surface
species on copper zirconia catalysts: Implications for methanol synthesis selectivity.
Journal of Molecular Catalysis
1990
,
63
(2), 243-254.
54. Sehested, J., Dahl, S., Jacobsen, J., Rostrup-Nielsen, J.R., Methanation of CO over nickel:
Mechanism and kinetics at high H
2
/CO ratios.
Journal of Physical Chemistry B
2005
,
109
(6), 2432-2438.
55. Sloczynski, J., Grabowski, R., Kozlowska, A., Olszewski, P., Stoch, J., Skrzypek, J.,
Lachowska, M. Catalytic activity of the M/(3ZnO·ZrO
2
) system (M = Cu, Ag, Au) in the
hydrogenation of CO
2
to methanol.
Applied Catalysis a-General
2004
,
278
(1), 11-23.
56. Fisher, I.A., Bell, A.T. In-situ infrared study of methanol synthesis from H
2
/CO
2
over Cu/
SiO
2
and Cu/ZrO
2
/SiO
2
.
Journal of Catalysis
1997
,
172
(1), 222-237.
Search WWH ::
Custom Search