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methanol synthesis (24) 24
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Chemical Engineering Research and Design, ISSN 0263-8762, 11/2014, Volume 92, Issue 11, pp. 2557 - 2567
Journal Article
Catalysis Today, ISSN 0920-5861, 11/2017, Volume 296, pp. 181 - 186
Cu-ZnGaMO (M = Al, Zr) catalysts prepared by a surfactant-free sol-gel method were characterized and tested in the reverse water-gas shift (RWGS) reaction.... 
ZrO2 | Ga2O3 | Cu-ZnO-based catalysts | CO2 reduction | RWGS | reduction | ZrO | METHANOL SYNTHESIS | HYDROGENATION | CONVERSION | CHEMISTRY, PHYSICAL | COPPER-BASED CATALYSTS | ENGINEERING, CHEMICAL | GAS SHIFT REACTION | INTERFACE | FUNCTIONALITY | ZNO | PROMOTED CU/SIO2 CATALYST | CHEMISTRY, APPLIED | PRECURSORS
Journal Article
Applied Catalysis A, General, ISSN 0926-860X, 09/2015, Volume 504, pp. 308 - 318
Influence of gold loading on methanol yield using Au/C ZA at 220–260 °C with 4.0 and 6.0 MPa. Methanol synthesis from CO via gas phase hydrogenation was... 
Cu–Zn–Al system | Deposition–precipitation | CO2 hydrogenation | Methanol | Deposition-precipitation | HYDROGENATION | ZIRCONIA | CU/ZNO-BASED CATALYSTS | PERFORMANCE | CHEMISTRY, PHYSICAL | Cu-Zn-Al system | ENVIRONMENTAL SCIENCES | GAS SHIFT REACTION | PRODUCTS | GOLD CATALYSTS | CARBON-DIOXIDE | WATER
Journal Article
Fuel, ISSN 0016-2361, 03/2019, pp. 1125 - 1133
Highly active and selective Cu-ZnO based catalysts with high BET surface areas and Cu surface areas were prepared using the co-precipitation method. The Cu-ZnO... 
Stability | Dimethyl ether (DME) | hydrogenation | Cu-ZnO based catalyst
Journal Article
Fuel, ISSN 0016-2361, 03/2019, Volume 239, pp. 1125 - 1133
Highly active and selective Cu-ZnO based catalysts with high BET surface areas and Cu surface areas were prepared using the co-precipitation method. The Cu-ZnO... 
Dimethyl ether (DME) | Stability | CO2 hydrogenation | Cu-ZnO based catalyst | OXIDE | CONVERSION | ENERGY & FUELS | CU/ZNO | SINGLE-STEP | ENGINEERING, CHEMICAL | HYBRID CATALYSTS | STEP SYNTHESIS | CARBON-DIOXIDE | DME | DEACTIVATION | CUO-ZNO-ZRO2
Journal Article
Journal of Nanoscience and Nanotechnology, ISSN 1533-4880, 06/2013, Volume 13, Issue 6, pp. 4398 - 4400
A series of Cu-ZnO based catalysts have been synthesized by the wet impregnation method at different pH, and after calcinations, have been evaluated for the... 
Different pH | MeOH-FPSO | Methanol synthesis | Cu-ZnO based catalysts | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | Methanol Synthesis | STABILITY | MATERIALS SCIENCE, MULTIDISCIPLINARY | CO2 | NANOSCIENCE & NANOTECHNOLOGY | Cu-ZnO Based Catalysts | CHEMISTRY, MULTIDISCIPLINARY | Synthesis | Catalysts | Methyl alcohol | Nanostructure | Catalysis | Copper | Nanotechnology
Journal Article
Applied Catalysis A: General, ISSN 0926-860X, 09/2001, Volume 218, Issue 1-2, pp. 235 - 240
Water produced during methanol synthesis from a CO -rich feed (CO /CO/H ) accelerated the crystallization of Cu and ZnO contained in a Cu/ZnO-based catalyst to... 
rich feed | CO-rich feed | Stability | Methanol synthesis | Cu/ZnO-based catalyst | CO2-rich feed | HYDROGENATION | CO2/H-2 | COMPOSITE CATALYSTS | MULTICOMPONENT CATALYSTS | CONVERSION | CHEMISTRY, PHYSICAL | H-2 | ENVIRONMENTAL SCIENCES | methanol synthesis | GAS | CU/SIO2 | CARBON-DIOXIDE | stability
Journal Article
Journal of Central South University, ISSN 2095-2899, 04/2018, Volume 25, Issue 4, pp. 691 - 700
Pure Cu nanowires as catalyst were prepared by electrochemical deposition and were used in CO2 hydrogenation to methanol. The active sites of the Cu based... 
flow blockage | methanol | migration | sintering | hydrogenation | Cu nanowire | ACTIVE-SITE | CU/ZNO-BASED CATALYSTS | METALLURGY & METALLURGICAL ENGINEERING | CARBON-DIOXIDE HYDROGENATION | MICROWAVE IRRADIATION | CUO/ZNO/AL2O3 CATALYSTS | METHANOL SYNTHESIS CATALYSTS | HYDROTALCITE-LIKE PRECURSORS | ZNO | CO2 hydrogenation | MORPHOLOGY | DEACTIVATION
Journal Article
Catalysis Surveys from Asia, ISSN 1571-1013, 12/2004, Volume 8, Issue 4, pp. 285 - 294
Our group’s studies on Cu/ZnO-based catalysts for methanol synthesis via hydrogenation of CO2 and for the water-gas shift reaction are reviewed. Effects of ZnO... 
water-gas shift | Chemistry | methanol synthesis | Physical Chemistry | Cu/ZnO-based catalyst | Industrial Chemistry/Chemical Engineering | catalyst development | Characterization and Evaluation Materials | MECHANISM | MULTICOMPONENT CATALYSTS | STABILITY | CO2 | SURFACE | CHEMISTRY, PHYSICAL | ZNO | H-2
Journal Article
Ranliao Huaxue Xuebao/Journal of Fuel Chemistry and Technology, ISSN 0253-2409, 2014, Volume 42, Issue 6, pp. 704 - 709
Journal Article
The Journal of Physical Chemistry C, ISSN 1932-7447, 05/2010, Volume 114, Issue 18, pp. 8423 - 8430
The water−gas shift (WGS) reaction (H2O + CO → H2 + CO2) is regarded as a key catalytic process in a future hydrogen economy. In this report, first-principles... 
C: Surfaces, Interfaces, Catalysis | METHANOL SYNTHESIS | NANOPARTICLES | COPPER-CATALYSTS | SURFACE SCIENCE | MECHANISM | CU/ZNO-BASED CATALYSTS | CU-ZRO2 CATALYSTS | MATERIALS SCIENCE, MULTIDISCIPLINARY | CO2 HYDROGENATION | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | MICROKINETIC MODEL
Journal Article
Journal of Cleaner Production, ISSN 0959-6526, 01/2017, Volume 140, pp. 1298 - 1312
Journal Article
Journal of Fuel Chemistry and Technology, ISSN 1872-5813, 06/2014, Volume 42, Issue 6, pp. 704 - 709
A series of Cu-ZnO-based catalysts modified with Al, Zr, and Ce for the low-temperature methanol synthesis were prepared through co-precipitation and... 
syngas | calcination temperature | modifiers | Cu-ZnO-based catalyst | low temperature methanol synthesis
Journal Article