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Feng Li, B. Cao, Rui Ma, Jinrong Liang, Hua Song, Huaihui Song (2016)
Performance of Cu/TiO2‐SiO2 catalysts in hydrogenation of furfural to furfuryl alcoholCanadian Journal of Chemical Engineering, 94
Chao Wen, A. Yin, Yuanyuan Cui, Xinli Yang, W. Dai, Kangnian Fan (2013)
Enhanced catalytic performance for SiO2–TiO2 binary oxide supported Cu-based catalyst in the hydrogenation of dimethyloxalateApplied Catalysis A-general, 458
J. Kijeński, P. Winiarek, T. Paryjczak, A. Lewicki, A. Mikołajska (2002)
Platinum deposited on monolayer supports in selective hydrogenation of furfural to furfuryl alcoholApplied Catalysis A-general, 233
Hanwen Liu, Qi Hu, Guoli Fan, Lan Yang, Feng Li (2015)
Surface synergistic effect in well-dispersed Cu/MgO catalysts for highly efficient vapor-phase hydrogenation of carbonyl compoundsCatalysis Science & Technology, 5
R. Mariscal, P. Maireles-Torres, M. Ojeda, I. Sádaba, M. Granados (2016)
Furfural: a renewable and versatile platform molecule for the synthesis of chemicals and fuelsEnergy and Environmental Science, 9
Zhu Luo, Shaylin Cetegen, Ran Miao, T. Jiang, Sheng-Yu Chen, T. Jafari, Yashan Zhang, S. Suib (2016)
Structure–property relationships of copper modified mesoporous TiO2 materials on alkyne homocoupling reactionsJournal of Catalysis, 338
C. Jiménez‐Gómez, J. Cecilia, D. Durán-Martín, R. Moreno-Tost, J. Santamaría-González, J. Mérida-Robles, R. Mariscal, P. Maireles-Torres (2016)
Gas-phase hydrogenation of furfural to furfuryl alcohol over Cu/ZnO catalystsJournal of Catalysis, 336
B. Reddy, G. Reddy, K. Rao, Ataullah Khan, I. Ganesh (2007)
Silica supported transition metal-based bimetallic catalysts for vapour phase selective hydrogenation of furfuraldehydeJournal of Molecular Catalysis A-chemical, 265
R. Rao, A. Dandekar, R. Baker, M. Vannice (1997)
Properties of Copper Chromite Catalysts in Hydrogenation ReactionsJournal of Catalysis, 171
H. Rojas, José Martínez, P. Reyes (2010)
KINETIC BEHAVIOR IN THE HYDROGENATION OF FURFURAL OVER IR CATALYSTS SUPPORTED ON TIO2Dyna, 77
Liang-Feng Chen, Pingjun Guo, M. Qiao, Shirun Yan, Hexing Li, W. Shen, Hualong Xu, Kangnian Fan (2008)
Cu/SiO2 catalysts prepared by the ammonia-evaporation method: Texture, structure, and catalytic performance in hydrogenation of dimethyl oxalate to ethylene glycolJournal of Catalysis, 257
Obaid Aldosari, Sarwat Iqbal, Peter Miedziak, G. Brett, Daniel Jones, Xi Liu, J. Edwards, D. Morgan, D. Knight, G. Hutchings (2016)
Pd–Ru/TiO2 catalyst – an active and selective catalyst for furfural hydrogenationCatalysis Science & Technology, 6
J. Lange, Evert Heide, Jeroen Buijtenen, R. Price (2012)
Furfural--a promising platform for lignocellulosic biofuels.ChemSusChem, 5 1
K. Zeitsch (2000)
The Chemistry and Technology of Furfural and Its Many By-Products
X. Li, P. Jia, T. Wang (2016)
ACS Catal.
M. Ebrahimynejad, M. Haghighi (2014)
Nanocatalysts: Effect of Active-phase and Promoter on Catalytic Properties and Performance in the Hydrodesulfurization ReactionPetroleum Science and Technology, 32
Sarwat Iqbal, Xi Liu, Obaid Aldosari, Peter Miedziak, J. Edwards, G. Brett, A. Akram, Gavin King, T. Davies, D. Morgan, D. Knight, G. Hutchings (2014)
Conversion of furfuryl alcohol into 2-methylfuran at room temperature using Pd/TiO2 catalystCatalysis Science & Technology, 4
B. Nagaraja, V. Kumar, V. Shasikala, A. Padmasri, B. Sreedhar, B. Raju, K. Rao (2003)
A highly efficient Cu/MgO catalyst for vapour phase hydrogenation of furfural to furfuryl alcoholCatalysis Communications, 4
Surapas Sitthisa, D. Resasco (2011)
Hydrodeoxygenation of Furfural Over Supported Metal Catalysts: A Comparative Study of Cu, Pd and NiCatalysis Letters, 141
M. Tike, V. Mahajani (2007)
Kinetics of Liquid-Phase Hydrogenation of Furfuryl Alcohol to Tetrahydrofurfuryl Alcohol over a Ru/TiO2 CatalystIndustrial & Engineering Chemistry Research, 46
K. Yan, Jiayou Liao, Xu Wu, Xianmei Xie (2013)
A noble-metal free Cu-catalyst derived from hydrotalcite for highly efficient hydrogenation of biomass-derived furfural and levulinic acidRSC Advances, 3
The selective hydrogenation of furfural has been investigated over the titania-supported monometallic (Cu) and bimetallic (Cu–Cr) catalysts. The catalytic performances were assessed over 4 h of run length under atmospheric pressure at the hydrogen-to-hydrocarbon ratio of 10.6 and 453 K. The results represented that the level of furfural conversion over the non-promoted catalyst was very low (below 10%) while the promoted one showed considerable furfural conversion during this period (higher than 70%). However, both catalysts exhibited high durability and selectivity towards furfuryl alcohol.
Russian Journal of Applied Chemistry – Springer Journals
Published: Jun 2, 2017
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