| A basic assessment of the reactivity of Ni catalysts in the decomposition of methane for the production of “COx-free” hydrogen for fuel cells application G Bonura, O Di Blasi, L Spadaro, F Arena, F Frusteri Catalysis Today 116 (3), 298-303, 2006 | 56 | 2006 |
| A basic assessment of the reactivity of Ni catalysts in the decomposition of methane for the production of'CO {sub x}-free'hydrogen for fuel cells application G Bonura, O Di Blasi, L Spadaro, F Frusteri, F Arena | | 2006 |
| A definitive assessment of the CO oxidation pattern of a nanocomposite MnCeO x catalyst F Arena, R di Chio, C Espro, A Palella, L Spadaro Reaction Chemistry & Engineering 3 (3), 293-300, 2018 | 3 | 2018 |
| A mechanistic assessment of the wet air oxidation activity of MnCeOx catalyst toward toxic and refractory organic pollutants F Arena, C Italiano, GD Ferrante, G Trunfio, L Spadaro Applied Catalysis B: Environmental 144, 292-299, 2014 | 20 | 2014 |
| A New Class of MnCeOx Materials for the Catalytic Gas Exhausts Emission Control: A Study of the CO Model Compound Oxidation F Arena, R Di Chio, C Espro, B Fazio, A Palella, L Spadaro Topics in Catalysis 62 (1-4), 259-265, 2019 | 1 | 2019 |
| Activity and stability of iron based catalysts in advanced Fischer-Tropsch technology via CO2-rich syngas conversion L Spadaro, F Arena, G Bonura, O Di Blasi, F Frusteri Studies in Surface Science and Catalysis 167, 49-54, 2007 | 1 | 2007 |
| Activity pattern of Cu-ZnO/ZrO2 catalysts in the hydrogenation of carbon dioxide to methanol F Arena, K Barbera, G Italiano, G Bonura, O Di Blasi, L Spadaro, F Frusteri | | |
| Activity pattern of low-loaded FeOx/SiO2 catalysts in the selective oxidation of C1 and C3 alkanes with oxygen F Arena, G Gatti, L Stievano, G Martra, S Coluccia, F Frusteri, L Spadaro, ... Catalysis today 117 (1-3), 75-79, 2006 | 26 | 2006 |
| Annual report 1996 (Book)| ETDEWEB A Salas | | 1995 |
| Basic Evidence of the Molecular Dispersion of MnCeOx Catalysts Synthesized via a Novel “Redox-Precipitation” Route F Arena, G Trunfio, J Negro, B Fazio, L Spadaro Chemistry of materials 19 (9), 2269-2276, 2007 | 129 | 2007 |
| Basic evidences for methanol-synthesis catalyst design F Arena, G Italiano, K Barbera, G Bonura, L Spadaro, F Frusteri Catalysis Today 143 (1-2), 80-85, 2009 | 100 | 2009 |
| Catalytic behaviour of a bifunctional system for the one step synthesis of DME by CO2 hydrogenation G Bonura, M Cordaro, C Cannilla, A Mezzapica, L Spadaro, F Arena, ... Catalysis Today 228, 51-57, 2014 | 60 | 2014 |
| Catalytic etherification of glycerol by tert-butyl alcohol to produce oxygenated additives for diesel fuel F Frusteri, F Arena, G Bonura, C Cannilla, L Spadaro, O Di Blasi Applied Catalysis A: General 367 (1-2), 77-83, 2009 | 200 | 2009 |
| Catalytic study in the HDO-HDT reaction of guaiacyl model compound for the direct valorization of biomasses pyrolysis oil L Spadaro, A Palella, F Arena | | |
| Catalytic wet air oxidation (CWAO) of industrial wastewaters: Mechanistic evidences, catalyst development and kinetic modeling F Arena, R Di Chio, C Espro, A Palella, L Spadaro Frontiers International Conference on Wastewater Treatment and Modelling …, 2017 | 6 | 2017 |
| Clean fuel for diesel engines: catalytic synthesis and environmental impact of DME F Frusteri, L Spadaro, O Di Blasi, G Bonura, F Arena 10th EAEC European Automotive Congress, Belgrade 30th May-1st June, 2005 | | 2005 |
| CO2 reduction to alcohols in a polymer electrolyte membrane co-electrolysis cell operating at low potentials D Sebastián, A Palella, V Baglio, L Spadaro, S Siracusano, P Negro, ... Electrochimica Acta 241, 28-40, 2017 | 13 | 2017 |
| Cu-TiO2 Photocatalysts for the Direct Conversion of CO2 into Methanol L Spadaro 23rd North American Catalysis Society Meeting, 2013 | | 2013 |
| Definitive Assessment of the Level of Risk of Exhausted Catalysts: Characterization of Ni and V Contaminates at the Limit of Detection L Spadaro, F Arena, R Di Chio, A Palella Topics in Catalysis 62 (1-4), 266-272, 2019 | | 2019 |
| Design of Ce-promoted FT Cobalt-based catalysts for fuels production via CO hydrogenation L Spadaro, F Arena, G Bonura, O Di Blasi, F Frusteri | | |
