Ion Agirre - Artikuluak (2004 urtetik gerozkoak)
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Towards greener furfural: evaluating the technical, economic and environmental feasibility of heterogeneous catalysis in biomass conversion† RSC Sustainability, 2025; 3, 2899 - 2914
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Environmental assessment of a hydrogen supply chain using LOHC system with novel low-PGM catalysts: A life cycle approach International Journal of Hydrogen Energy, 2025; 142, 616 - 626
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Synergistic effects of Pt-doping in Ni/Al2O3 catalysts for hydrogen storage using benzyltoluene as LOHC International Journal of Hydrogen Energy, 2025; 130, 631 - 643
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Exploring Perhydro-Benzyltoluene Dehydrogenation Using Sulfur-Doped PtMo/Al2O3 Catalysts Catalysts, 2025; 15
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Ni–Fe nanoparticles prepared using hydrotalcite precursors enhance the photocatalytic performance of CO2 methanation 2024; 56, 1435 - 1445
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Process design, kinetics, and techno-economic assessment of an integrated liquid phase furfural hydrogenation process Chem. Eng. J. (Q1), 2024; 480
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Integration of sustainable development goals in the field of process engineering through active learning methodologies Education for Chemical Engineers, 2024; 49, 26 - 34
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Environmental and economic assessment of large-scale hydrogen supply chains across Europe: LOHC vs other hydrogen technologies Applied Energy, 2024; 401
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Development of High Temperature Water Sorbents Based on Zeolites, Dolomite, Lanthanum Oxide and Coke Materials (Q1), 2023; 16(7)
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HMF hydrogenolysis over carbon-supported NieCu catalysts to produce hydrogenated biofuels Energy, 2022; 255
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El futuro del hidrógeno verde / The future of green hydrogen Dyna, 2022; 97(6), 1 - 4
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Pore flow-through catalytic membrane reactor for steam methane reforming: characterization and performance Reaction Chemistry & Engineering, 2022; 7, 2240 - 2253
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Integrated Environmental and Exergoeconomic Analysis of Biomass-Derived Maleic Anhydride Advanced Sustainable Systems, 2022; 6
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Water sorption enhanced CO2 methanation process: Optimization of reaction conditions and study of various sorbents Chemical Engineering Science, 2021; 239, 00092509
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Ni−Cu Bimetallic Catalytic System for Producing 5‑Hydroxymethylfurfural-Derived Value-Added Biofuels ACS Sustainable Chem. Eng., 2020; 8, 11183 - 11193
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Value-Added Bio-Chemicals Commodities from Catalytic Conversion of Biomass Derived Furan-Compounds Catalysts, 2020; 10 (8), 2073-4344
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Heterogeneous Catalyzed Thermochemical Conversion of Lignin Model Compounds: An Overview Topics in Current Chemistry, 2019; 377:36, 1 - 75 - 2365-0869
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Heterogeneous Catalyzed Thermochemical Conversion of Lignin Model Compounds: An Overview Topics in Current Chemistry, 2019; 377:36, 1 - 75 - 2365-0869
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Process design and techno-economic analysis of gas and aqueous phase maleic anhydride production from biomass-derived furfural Biomass Conversion and Biorefinery, 2019; In press, 2190-6823
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Furanic biofuels production from biomass using Cu-based heterogeneous catalysts Energy, 2019; 172, 531 - 544