His study focuses on the intersection of X-ray photoelectron spectroscopy and fields such as Chemical engineering with connections in the field of Perovskite (structure). His Chemical engineering research extends to the thematically linked field of Perovskite (structure). His Organic chemistry study often links to related topics such as Infrared spectroscopy. Catalysis and Carbon monoxide are two areas of study in which he engages in interdisciplinary research. In his study, he carries out multidisciplinary Inorganic chemistry and Oxygen research. He undertakes interdisciplinary study in the fields of Oxygen and Water-gas shift reaction through his research. In his works, he undertakes multidisciplinary study on Water-gas shift reaction and Hydrogen. Alain Kiennemann performs multidisciplinary studies into Hydrogen and Inorganic chemistry in his work. He undertakes interdisciplinary study in the fields of Steam reforming and Syngas through his research.
While the research belongs to areas of Library science, Alain Kiennemann spends his time largely on the problem of Citation, intersecting his research to questions surrounding World Wide Web. His work often combines World Wide Web and Citation studies. As part of the same scientific family, Alain Kiennemann usually focuses on X-ray photoelectron spectroscopy, concentrating on Chemical engineering and intersecting with Perovskite (structure). Inorganic chemistry is intertwined with Molybdate and Coprecipitation in his research. His Carbon monoxide research extends to Organic chemistry, which is thematically connected. He integrates Catalysis and Alcohol in his research. By researching both Methane and Oxygen, Alain Kiennemann produces research that crosses academic boundaries. Alain Kiennemann performs multidisciplinary study in Oxygen and Methane in his work. Alain Kiennemann integrates many fields, such as Steam reforming and Syngas, in his works.
Organic chemistry is closely attributed to Oxide in his work. His work on Organic chemistry expands to the thematically related Oxide. While working in this field, Alain Kiennemann studies both Steam reforming and Hydrogen production. Alain Kiennemann integrates several fields in his works, including Hydrogen production and Methane. Alain Kiennemann combines Methane and Carbon dioxide reforming in his research. In his research, he performs multidisciplinary study on Carbon dioxide reforming and Syngas. He applies his multidisciplinary studies on Syngas and Methane reformer in his research. Alain Kiennemann performs multidisciplinary study on Methane reformer and Steam reforming in his works. His Chemical engineering study frequently involves adjacent topics like Perovskite (structure).
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Steam reforming of tar from a biomass gasification process over Ni/olivine catalyst using toluene as a model compound
D. Świerczyński;S. Libs;C. Courson;A. Kiennemann.
Applied Catalysis B-environmental (2007)
Characterization and activity in dry reforming of methane on NiMg/Al and Ni/MgO catalysts
A. Djaidja;S. Libs;A. Kiennemann;A. Barama.
Catalysis Today (2006)
Development of Ni catalysts for gas production from biomass gasification. Reactivity in steam- and dry-reforming
C Courson;E Makaga;C Petit;A Kiennemann.
Catalysis Today (2000)
Development of catalysts suitable for hydrogen or syn-gas production from biomass gasification
S. Rapagná;S. Rapagná;H. Provendier;C. Petit;A. Kiennemann.
Biomass & Bioenergy (2002)
Pollution by nitrogen oxides: an approach to NO(x) abatement by using sorbing catalytic materials.
M.A. Gómez-García;V. Pitchon;A. Kiennemann.
Environment International (2005)
Stabilisation of active nickel catalysts in partial oxidation of methane to synthesis gas by iron addition
H Provendier;C Petit;C Estournès;S Libs.
Applied Catalysis A-general (1999)
Methanol Selective Oxidation to Formaldehyde over Iron-Molybdate Catalysts
Ana Paula Vieira Soares;Manuel Farinha Portela;Alain Kiennemann.
Catalysis Reviews-science and Engineering (2005)
Study of steam reforming of toluene used as model compound of tar produced by biomass gasification
Dariusz Swierczynski;Claire Courson;Alain Kiennemann.
Chemical Engineering and Processing (2008)
Study on a cobalt silica catalyst during reduction and Fischer–Tropsch reaction: In situ EXAFS compared to XPS and XRD
B Ernst;A Bensaddik;L Hilaire;P Chaumette.
Catalysis Today (1998)
Characterization and reactivity in toluene reforming of a Fe/olivine catalyst designed for gas cleanup in biomass gasification
Mirella Virginie;Claire Courson;Daniel Niznansky;Nouari Chaoui.
Applied Catalysis B-environmental (2010)
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