Grupo de Investigación Supren

• Díaz-Maizkurrena P., Requies J. a; Iriondo A.; Macías-Villasevil M.  Addressing the influence of alkaline compounds in 5-hydroxymethylfurfural oxidation and separation towards 2,5-furandicarboxylic acid Catalysis Today,  2025;  456
• Díaz-Maizkurrena P., Requies J. ; Iriondo A.; Macías-Villasevil M.  Characterization and performance of carbon supported platinum-bismuth bimetallic catalysts tested in 5-hydroxymethylfurfural aerobic oxidation to 2,5-furandicarboxylic acid Biomass and Bioenergy,  2025;  192
• A. Serras-Malillos, B. B. Perez-Martinez, A. Iriondo, E. Acha, A. Lopez-Urionabarrenechea, B. M. Caballero.  Quantification of the composition of pyrolysis oils of complex plastic waste by gas chromatography coupled with mass spectrometer detector RSC Advances IF: 3,9 (Q2),  2024;  14
• Díaz-Maizkurrena P.; Requies J.M.; Iriondo A.; Arias P.L.; Mariscal R.  5-Methoxymethyl furfural production by acid heterogeneous catalytic etherification of 5-hydroxymethyl furfural Catalysis Today,  2024;  426
• N. Viar, J. M. Requies, I. Agirre, A. Iriondo, C. García-Sancho, P. L. Arias  HMF hydrogenolysis over carbon-supported NieCu catalysts to produce hydrogenated biofuels Energy,  2022;  255
• Iriondo A, Agirre I, Viar N, Requies J.  Value-Added Bio-Chemicals Commodities from Catalytic Conversion of Biomass Derived Furan-Compounds Catalysts,  2020;  10 (8),  2073-4344
• N. Viar,* J.M. Requies, I. Agirre, A. Iriondo, M. Gil-Calvo, P.L. Arias  Ni−Cu Bimetallic Catalytic System for Producing 5‑Hydroxymethylfurfural-Derived Value-Added Biofuels ACS Sustainable Chem. Eng.,  2020;  8,  11183 - 11193
• Nerea Viar, Jesús M. Requies, Ion Agirre, Aitziber Iriondo, Pedro L. Arias  Furanic biofuels production from biomass using Cu-based heterogeneous catalysts Energy,  2019;  172,  531 - 544
• Mikel Oregui‑Bengoechea, Ion Agirre, Aitziber Iriondo, Alexander Lopez‑Urionabarrenechea, Jesus M. Requies, Iker Agirrezabal‑Telleria, Kepa Bizkarra, V. Laura Barrio, Jose F. Cambra  Heterogeneous Catalyzed Thermochemical Conversion of Lignin Model Compounds: An Overview Topics in Current Chemistry,  2019;  377:36,  1 - 75 -  2365-0869
• Mikel Oregui‑Bengoechea, Ion Agirre, Aitziber Iriondo, Alexander Lopez‑Urionabarrenechea, Jesus M. Requies, Iker Agirrezabal‑Telleria, Kepa Bizkarra, V. Laura Barrio, Jose F. Cambra  Heterogeneous Catalyzed Thermochemical Conversion of Lignin Model Compounds: An Overview Topics in Current Chemistry,  2019;  377:36,  1 - 75 -  2365-0869
• Jesús M. Requies, Mikel Frias, Marcos Cuezva, Aitziber Iriondo, Ion Agirre, and Nerea Viar  Hydrogenolysis of 5‑Hydroxymethylfurfural To Produce 2,5- Dimethylfuran over ZrO2 Supported Cu and RuCu Catalysts Industrial & Engineering Chemistry Research,  2018;  57,  11535 - 11546
• A. Iriondo, A. Mendiguren, M.B. Güemez, J. Requies, J.F. Cambra  2,5-DMF production through hydrogenation of real and synthetic 5- HMF over transition metal catalysts supported on carriers with different nature Catal. Today,  2017;  279,  286 - 295
• M. El Doukkali, A. Iriondo, N. Miletic, J.F. Cambra, P.L. Arias  Hydrothermal stability improvement of NiPt-containing γ-Al2O3 catalysts tested in aqueous phase reforming of glycerol/water mixture for H2 production Int. J. Hydrogen Energy,  2017;  42,  23617 - 23630
• I. Guzman, A. Heras, M.B. Guemez, A. Iriondo, J.F. Cambra, J. Requies  Levulinic Acid Production Using Solid-Acid Catalysis Ind. Eng. Chem. Res.,  2016;  55,  5139 - 5144
• M. El Doukkali, A. Iriondo, J.F. Cambra, I. Gandarias, L. Jalowiecki-Duhamed, F. Dumeignil, P.L. Arias  Deactivation study of the Pt and/or Ni-based γ-Al2O3 catalysts used in the aqueous phase reforming of glycerol for H2 production Appl. Catal. A.:Gen.,  2014;  472,  80 - 91
• M. El Doukkali, A. Iriondo, J.F. Cambra, P.L. Arias  Recent improvement on H2 production by liquid phase reforming of glycerol: catalytic properties and performance, and deactivation studies Top. Catal.,  2014;  57,  1066 - 1077
• M. El Doukkali, A. Iriondo, J.F. Cambra, L. Jalowiecki-Duhamel, A.S. Mamede, F. Dumeignil, P.L. Arias  Pt monometallic and bimetallic catalysts prepared by acid sol-gel method for liquid phase reforming of bioglycerol  J Mol Catal A: Chem,  2013;  368-369,  125 - 136
• M. El Doukkali, A. Iriondo, P.L. Arias, J.F. Cambra, I. Gandarias, V.L. Barrio  Bioethanol/glycerol mixture steam reforming over Pt and PtNi supported on lanthana or ceria doped alumina catalysts Int. J. Hydrog. Energy,  2012;  37,  8298 - 8309
• A. Iriondo, V.L. Barrio, M. El Doukkali, J.F. Cambra, M.B. Güemez, J.M. Requies, P.L. Arias, , M.C. Sánchez-Sánchez, R.M. Navarro, J.L.G. Fierro  Biohydrogen production by gas phase reforming of glycerine and ethanol mixtures International Journal of Hydrogen Energy,  2012;  37 (2),  2028 - 2036
• A. Iriondo, J.F. Cambra, M.B. Güemez, V.L. Barrio, P.L. Arias, J.M. Requies, M.C. Sánchez-Sánchez, R.M. Navarro  Effect of ZrO 2 addition on Ni/Al 2O 3 catalyst to produce H 2 from glycerol  Int. J. Hydrogen Energy,  2012;  37,  7084 - 7093