Access the full text.
Sign up today, get DeepDyve free for 14 days.
P. Jacobs, R. Ballmoos (1982)
FRAMEWORK HYDROXYL-GROUPS OF H-ZSM-5 ZEOLITESThe Journal of Physical Chemistry, 86
R. Long, R. Yang (1999)
Selective Catalytic Reduction of Nitrogen Oxides by Ammonia over Fe3+-Exchanged TiO2-Pillared Clay CatalystsJournal of Catalysis, 186
Hai-Ying Chen, W. Sachtler (1998)
Activity and durability of Fe/ZSM-5 catalysts for lean burn NOx reduction in the presence of water vaporCatalysis Today, 42
Hai-Ying Chen, T. Voskoboinikov, W. Sachtler (1998)
Reduction of NOxover Fe/ZSM-5 Catalysts: Adsorption Complexes and Their Reactivity toward HydrocarbonsJournal of Catalysis, 180
F. Janssens, F. Kerkhof, H. Bosch, J. Ross (1987)
Mechanism of the reaction of nitric oxide, ammonia, and oxygen over vanadia catalysts. I. The role of oxygen studied by way of isotopic transients under dilute conditionsThe Journal of Physical Chemistry, 91
R. Long, R. Yang (1999)
Superior Fe-ZSM-5 catalyst for selective catalytic reduction of nitric oxide by ammoniaJournal of the American Chemical Society, 121
J. Moulder, W. Stickle, W. Sobol, K. Bomben (1992)
Handbook of X-Ray Photoelectron Spectroscopy
M. Mauvezin, G. Delahay, F. Kißlich, B. Coq, S. Kieger (1999)
Catalytic reduction of N2O by NH3 in presence of oxygen using Fe‐exchanged zeolitesCatalysis Letters, 62
Shinya Sato, H. Hirabayashi, H. Yahiro, N. Mizuno, M. Iwamoto (1992)
Iron ion-exchanged zeolite: the most active catalyst at 473 K for selective reduction of nitrogen monoxide by ethene in oxidizing atmosphereCatalysis Letters, 12
G. Centi, S. Perathoner, D. Biglino, E. Giamello (1995)
Adsorption and reactivity of NO on copper-on-alumina catalysts. I: Formation of nitrate species and their influence on reactivity in NO and NH3 conversionJournal of Catalysis, 152
J. Valyon, W. Millman, W. Hall (1994)
The desorption of O2 during NO and N2O decomposition on Cu- and Fe-zeolitesCatalysis Letters, 24
A. Kato, S. Matsuda, T. Kamo, F. Nakajima, H. Kuroda, T. Narita (1981)
Reaction between nitrogen oxide (NOx) and ammonia on iron oxide-titanium oxide catalystThe Journal of Physical Chemistry, 85
J. Brandin, L. Andersson, C. Odenbrand (1989)
Catalytic Reduction of Nitrogen Oxides on Mordenites: Some Aspects on the MechanismCatalysis Today, 4
U. Ozkan, Yeping Cai, M. Kumthekar (1994)
Investigation of the Reaction Pathways in Selective Catalytic Reduction of NO with NH3 over V2O5 Catalysts: Isotopic Labeling Studies Using 18O2, 15NH3, 15NO, and 15N18OJournal of Catalysis, 149
J. Valyon, W. Hall (1993)
Studies of the surface species formed from nitric oxide on copper zeolitesThe Journal of Physical Chemistry, 97
G. Busca, L. Lietti, G. Ramis, F. Berti (1998)
Chemical and mechanistic aspects of the selective catalytic reduction of NOx by ammonia over oxide catalysts: A reviewApplied Catalysis B-environmental, 18
Xiao-bing Feng, W. Hall (1997)
FeZSM-5: A Durable SCR Catalyst for NOxRemoval from Combustion StreamsJournal of Catalysis, 166
R. Long, R. Yang (1999)
Catalytic Performance of Fe–ZSM-5 Catalysts for Selective Catalytic Reduction of Nitric Oxide by AmmoniaJournal of Catalysis, 188
G. Went, L. Leu, R. Rosin, A. Bell (1992)
The effects of structure on the catalytic activity and selectivity of V2O5/TiO2 for the reduction of NO by NH3Journal of Catalysis, 134
Y. Chang, J. Mccarty, Y. Zhang (1995)
N2O decomposition over [Fe]-ZSM-5 and Fe-HZSM-5 zeolitesCatalysis Letters, 34
E. Guglielminotti (1994)
Spectroscopic Characterization of the Fe/ZrO2 System. 2. NO Adsorption and CO-NO ReactionThe Journal of Physical Chemistry, 98
C. Odenbrand, A. Bahamonde, P. Avila, J. Blanco (1994)
Kinetic study of the selective reduction of nitric oxide over vanadia—tungsta—titania/sepiolite catalystApplied Catalysis B-environmental, 5
L. Lobree, I. Hwang, J. Reimer, A. Bell (1999)
An in situ infrared study of NO reduction by C3H8 over Fe‐ZSM‐5Catalysis Letters, 63
K. Segawa, Y. Chen, J. Kubsh, W. Delgass, J. Dumesic, W. Hall (1982)
Infrared and Mössbauer spectroscopic studies of the interaction of nitric oxide with FeY zeoliteJournal of Catalysis, 76
R. Long, R. Yang (2000)
FTIR and Kinetic Studies of the Mechanism of Fe3+-Exchanged TiO2-Pillared Clay Catalyst for Selective Catalytic Reduction of NO with AmmoniaJournal of Catalysis, 190
L. Lobree, I. Hwang, J. Reimer, A. Bell (1999)
Investigations of the State of Fe in H–ZSM-5Journal of Catalysis, 186
C. Pophal, T. Yogo, K. Tanabe, K. Segawa (1997)
Selective catalytic reduction of N2O by C3H6 over Fe-MFICatalysis Letters, 44
W. Hall, Xiao-bing Feng, J. Dumesic, R. Watwe (1998)
Problems in preparation of FeZSM-5 catalystsCatalysis Letters, 52
Tsutomu Yamaguchi (1990)
Recent progress in solid superacidApplied Catalysis, 61
A. Kucherov, C. Montreuil, T. Kucherova, M. Shelef (1998)
In situ high-temperature ESR characterization of FeZSM-5 and FeSAPO-34 catalysts in flowing mixtures of NO, C3H6, and O2Catalysis Letters, 56
N. Topsoe (1991)
Characterization of the nature of surface sites on vanadia-titania catalysts by FTIRJournal of Catalysis, 128
J. Eng, C. Bartholomew (1997)
Kinetic and Mechanistic Study of NO x Reduction by NH 3over H-Form ZeolitesJournal of Catalysis
N. Topsoe, J. Dumesic, H. Topsøe (1995)
Vanadia-Titania Catalysts for Selective Catalytic Reduction of Nitric-Oxide by AmmoniaJournal of Catalysis, 151
M. Rauscher (1999)
Preparation of a highly active Fe-ZSM-5 catalyst through solid-state ion exchange for the catalytic decomposition of N2OApplied Catalysis A-general, 184
M. Schraml-Marth, A. Wokaun, A. Baiker (1990)
Grafting of V2O5 monolayers onto TiO2 from alkoxide precursors: A diffuse reflectance FTIR studyJournal of Catalysis, 124
A. Ma, W. Grünert (1999)
Selective catalytic reduction of NO by ammonia over Fe-ZSM-5 catalystsChemical Communications
E. Teunissen, V. Santen, A. Jansen, van Duijneveldt (1993)
NH4+ in zeolites : coordination and solvation effectsThe Journal of Physical Chemistry, 97
R. Joyner, M. Stockenhuber (1999)
Preparation, Characterization, and Performance of Fe−ZSM-5 CatalystsJournal of Physical Chemistry B, 103
Yuejin. Li, T. Slager, J. Armor (1994)
Selective reduction of NOx by methane on Co-ferrierites. II: Catalyst characterizationJournal of Catalysis, 150
Tsutomu Yamaguchi, T. Jin, K. Tanabe (1986)
Structure of acid sites on sulfur-promoted iron oxideThe Journal of Physical Chemistry, 90
Journal of Catalysis – CrossRef
Published: Aug 1, 2000
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.