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chemistry, physical (13) 13
c-2-c-4 alkanes (8) 8
engineering, chemical (8) 8
selective oxidation (6) 6
chemistry, applied (5) 5
fischer-tropsch synthesis (5) 5
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olefins (4) 4
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alkene oxidation (3) 3
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catalysis (3) 3
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isobutane (2) 2
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ysz (2) 2
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Accounts of Chemical Research, ISSN 0001-4842, 10/2018, Volume 51, Issue 10, pp. 2556 - 2564
Conspectus Light olefins such as ethylene and propylene form the foundation of the modern chemical industry, with yearly production volumes well into the... 
ETHANE | VANADIUM-OXIDE CATALYSTS | SELECTIVE OXIDATION | ALUMINA-BORIA CATALYSTS | CONVERSION | NANOSHEETS | PROPANE | NITRIDE CATALYST | CHEMISTRY, MULTIDISCIPLINARY | C-2-C-4 ALKANES | METAL-OXIDES
Journal Article
CATALYSIS TODAY, ISSN 0920-5861, 04/2009, Volume 142, Issue 3-4, pp. 138 - 142
The effect of O-2 and N2O on alkane reactivity and olefin selectivity in the oxidative dehydrogenation of ethane, propane, n-butane. and iso-butane over highly... 
ACTIVATION | C-2-C-4 alkanes | Oxidative dehydrogenation | Supported VOx | CHEMISTRY, PHYSICAL | PROPANE | REACTION PATHWAYS | OXIDE CATALYSTS | ALUMINA | OXYGEN | ENGINEERING, CHEMICAL | BOND STRENGTHS | SUPPORTED VANADIA CATALYSTS | SSITKA | Nitrous oxide | ISOBUTANE | Oxygen species | TAP reactor | CHEMISTRY, APPLIED | TRANSIENT
Journal Article
Catalysis Today, ISSN 0920-5861, 2003, Volume 81, Issue 2, pp. 107 - 116
The main advantage of oxidative dehydrogenation (ODH) of light alkanes over non-oxidative dehydrogenation (NODH) is the absence of thermodynamic limitations... 
Non-oxidative dehydrogenation | Oxidative hydrogenation | C 2–C 4 alkanes | ENGINEERING, CHEMICAL | SELECTIVE OXIDATION | C-2-C-4 alkanes | OXIDE | CHEMISTRY, PHYSICAL | PARAFFINS | CHEMISTRY, APPLIED | oxidative hydrogenation | non-oxidative dehydrogenation
Journal Article
APPLIED CATALYSIS A-GENERAL, ISSN 0926-860X, 02/2001, Volume 209, Issue 1-2, pp. 279 - 289
Oxidation of ethane, propane and n-butane on chromium oxide supported on alumina and on unsupported chromia yields carbon oxides as the main reaction products.... 
ETHANE | SELECTIVE OXIDATION | oxidation of C-2-C-4 alkanes | chromium oxide catalysts | PERFORMANCE | REACTIVITY | CHEMISTRY, PHYSICAL | PROPANE | ENVIRONMENTAL SCIENCES | DEHYDROGENATION | ALUMINA CATALYSTS | OXIDE SURFACES | ISOBUTANE | oxidative dehydrogenation of C-2-C-4 alkanes | N-BUTANE
Journal Article
APPLIED CATALYSIS A-GENERAL, ISSN 0926-860X, 12/2004, Volume 277, Issue 1-2, pp. 209 - 217
An electrochemical reactor Au|YSZ|Ag, using yttria-stabilized zirconia (YSZ) as a solid electrolyte, has been employed for the partial oxidation of C-2-C-4... 
YSZ | STABILIZED ZIRCONIA/AG SYSTEM | SELECTIVE OXIDATION | C-2-C-4 alkanes | structure-sensitive oxidation | CHEMISTRY, PHYSICAL | partial oxidation | electro-chemical cell | CATALYST | MoV2O8 | OXYGEN | ENVIRONMENTAL SCIENCES | ALKENE OXIDATION | PROPYLENE | BISMUTH MOLYBDATE
Journal Article
CHEMICAL COMMUNICATIONS, ISSN 1359-7345, 2010, Volume 46, Issue 27, pp. 4974 - 4976
For the first time, we demonstrated that combining oxidative and non-oxidative dehydrogenation of iso-butane in one reactor system is an attractive approach... 
OXYDEHYDROGENATION | VOX/AL2O3 | O-2 | N2O | PROPANE | OXIDE CATALYSTS | CHEMISTRY, MULTIDISCIPLINARY | C-2-C-4 ALKANES
Journal Article
Catalysis Today, ISSN 0920-5861, 2004, Volume 97, Issue 4, pp. 277 - 282
Future regulations for the limitation of sulfur and aromatics in fuels driven by the European Auto Oil Program (AOP II) stimulate the need for an alternative... 
C 2–C 4n-alkanes | Pd/H-ZSM-5-cracking catalyst | ARINO ®-process | Heavy pyrolysis gasoline | Naphthene cracking | ARINO®-process | n-alkanes | ENGINEERING, CHEMICAL | ARINO (R)-process | naphthene cracking | CHEMISTRY, PHYSICAL | CHEMISTRY, APPLIED | C-2-C-4 n-alkanes | heavy pyrolysis gasoline
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 2016, Volume 25, Issue 6, pp. 985 - 993
The Fischer–Tropsch to olefins(FTO) process is a method for the direct conversion of synthesis gas to lower C2–C4olefins. Carbon-supported iron carbide... 
C2–C4 olefins | Carbon supports | Fischer–Tropsch to olefins synthesis | Promoters | Iron catalysts | olefins | SODIUM | METHANOL | DESIGN | ENERGY & FUELS | PERFORMANCE | CHEMISTRY, PHYSICAL | SULFUR | SELECTIVE CONVERSION | ENGINEERING, CHEMICAL | ALKENES | CO HYDROGENATION | Fischer-Tropsch to olefins synthesis | NANOTUBES | CHEMISTRY, APPLIED | C-2-C-4 olefins | SYNGAS
Journal Article
APPLIED CATALYSIS A-GENERAL, ISSN 0926-860X, 10/2004, Volume 273, Issue 1-2, pp. 133 - 141
An electrochemical reactor, using yttria-stabilized zirconia (YSZ) as a solid electrolyte and gold and silver as the anode and cathode, respectively, has been... 
YSZ | STABILIZED ZIRCONIA/AG SYSTEM | SELECTIVE OXIDATION | PROPENE OXIDATION | electrochemical cell | V2O5 | CHEMISTRY, PHYSICAL | partial oxidation | MILD OXIDATION | moO | ENVIRONMENTAL SCIENCES | MALEIC-ANHYDRIDE | DEHYDROGENATION | ALKENE OXIDATION | MAGNESIUM MOLYBDATE CATALYSTS | OXIDE CATALYST | C-2-C-4 hydrocarbons | BISMUTH MOLYBDATE
Journal Article
Chinese Journal of Catalysis, ISSN 1872-2067, 07/2015, Volume 36, Issue 7, pp. 1131 - 1135
Direct conversion of syngas into hydrocarbons with high selectivity remains a challenge. Herein, we report the synthesis of a core–shell-structured catalyst... 
Core–shell | C2–C4 hydrocarbons | Chromium-zinc oxide | Zeolite | Syngas direct conversion | C 2 -C 4 hydrocarbons | Core-shell | hydrocarbons | SYNTHESIS GAS | METHANOL SYNTHESIS | DIMETHYL ETHER | CHEMISTRY, PHYSICAL | LIQUID HYDROCARBONS | ENGINEERING, CHEMICAL | CR/ZNO | CAPSULE CATALYST | C-2-C-4 hydrocarbons | OLEFINS | CHEMISTRY, APPLIED
Journal Article
Journal of Industrial and Engineering Chemistry, ISSN 1226-086X, 05/2013, Volume 19, Issue 3, pp. 961 - 965
Fe–Mn–V–K catalysts for the synthesis of light olefins from CO hydrogenation were prepared by a specially controlled degradation method. The effect of the V... 
Slurry reactor | Light olefins | CO hydrogenation | Fe–Mn–V–K catalysts | Fe-Mn-V-K catalysts | SYNTHESIS GAS | C-2-C-4 OLEFINS | OXIDE CATALYSTS | SUPPORTED FE | CHEMISTRY, MULTIDISCIPLINARY | IRON-MANGANESE CATALYST | ENGINEERING, CHEMICAL | CARBON-MONOXIDE | FISCHER-TROPSCH SYNTHESIS | OXIDATIVE DEHYDROGENATION | MOSSBAUER
Journal Article
Journal of Industrial and Engineering Chemistry, ISSN 1226-086X, 2009, Volume 15, Issue 6, pp. 798 - 802
A series of bifunctional 20Fe–Cu( )–4K/ZSM5 ( = 0, 2, 4 and 6 wt.%) catalysts were prepared to elucidate the effect of Cu promoter on F–T synthesis... 
ZSM5 | Fe-based catalyst | C 2–C 4 olefin | Cu content | Fischer–Tropsch synthesis | olefin | Fischer-Tropsch synthesis | ACTIVATION | HYDROGENATION | PRECURSOR | FE-CATALYSTS | COPPER | CHEMISTRY, MULTIDISCIPLINARY | ENGINEERING, CHEMICAL | TEMPERATURE | REDUCTION | C-2-C-4 olefin | IRON-BASED CATALYSTS | CARBON-DIOXIDE
Journal Article
Reaction Kinetics, Mechanisms and Catalysis, ISSN 1878-5190, 4/2011, Volume 102, Issue 2, pp. 437 - 445
A novel carbon modified Fe–Mn–K catalyst for light olefin synthesis from CO hydrogenation was prepared by the sol–gel method. The effect of carbon contents on... 
Chemistry | Light olefins | Physical Chemistry | CO hydrogenation | Fe–Mn–K catalyst | Carbon incorporation | Catalysis | Industrial Chemistry/Chemical Engineering | Fe-Mn-K catalyst | SYNTHESIS GAS | C-2-C-4 OLEFINS | CONVERSION | CHEMISTRY, PHYSICAL | IRON-MANGANESE CATALYST | ALKENES | CLUSTERS | MONOXIDE | FISCHER-TROPSCH SYNTHESIS | PROMOTER | SYNGAS | Catalysts | Hydrogenation | Olefins
Journal Article
Hyperfine Interactions, ISSN 0304-3843, 5/2001, Volume 134, Issue 1, pp. 13 - 25
Journal Article
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