Iñaki Gandarias - Articles (from 2004 on)
- Hydrogenolysis through catalytic transfer hydrogenation: Glycerol conversion to 1,2-propanediol Catal. Today, 2012; 195, 22 - 31
- Bioethanol/glycerol mixture steam reforming over Pt and PtNi supported on lanthana or ceria doped alumina catalysts Int. J. Hydrog. Energy, 2012; 37 (10), 8298 - 8309
- Liquid phase glycerol hydrogenolysis by formic acid over Ni-Cu/Al2O3 catalysts J. Catal., 2012; 290, 79 - 89
- A comparison of sol-gel and impregnated Pt or/and Ni based γ-alumina catalysts for bioglycerol aqueous phase reforming Appl. Catal. B.:Environ., 2012; 125, 516 - 529
- Liquid-phase glycerol hydrogenolysis to 1,2-propanediol under nitrogen pressure using 2-propanol as hydrogen source J. Catal., 2011; 282, 237 - 247
- Hydrogenolysis of glycerol to propanediols over a Pt/ASA catalyst: The role of acid and metal sites on product selectivity and the reaction mechanism Appl. Catal. B.:Environ., 2010; 97, 248 - 256
- From biomass to fuels: Hydrotreating of oxygenated compounds Int. J. Hydrog. Energy, 2008; 33, 3485 - 3488
- Process design, kinetics, and techno-economic assessment of an integrated liquid phase furfural hydrogenation process Chem. Eng. J. (Q1), 480
- Eutectic mixtures of sugar alcohols for thermal energy storage in the 60–90 ºC temperature range Sol Energ Mat Sol C, 2015; 134, 215 - 226
- Heterogeneous acid-catalysts for the production of furan-derived compounds (furfural and hydroxymethylfurfural) from renewable carbohydrates: A review Catalysis Today, 2014; 234, 42 - 58
- Gas reactions under intrapore condensation regime within tailored metal–organic framework catalysts Nature Communications, 2019; 10
- Selective furfural hydrogenolysis towards 2-methylfuran by controlled poisoning of Cu–Co catalysts with chlorine Reaction Chemistry & Engineering, 2023; 8, 687 - 698
- One-Pot Production of 1,5-Pentanediol from Furfural Through Tailored Hydrotalcite-Based Catalysts Catalysis Letters, 2023; 153, 2018 - 2025
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