G Centi - SCOPE

ERC Synergy SCOPE
Surface-COnfined fast-modulated Plasma for process and Energy intensification in small molecules conversion
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G Centi

Publications PIs
Publications (realized in the SCOPE project)
see  the page on project results for the updated list of publications

G. Centi - UniME
  • Enhanced performance in the direct electrocatalytic synthesis of ammonia from N2 and H2O by an in-situ electrochemical activation of CNT-supported iron oxide nanoparticles, S Chen, S Perathoner, C Ampelli, H Wei, S Abate, B Zhang, G Centi, J. Energy Chem. 2020, 49, 22-32. Link
  • Direct synthesis of ammonia from N2 and H2O on different iron species supported on carbon nanotubes using a gas‐phase electrocatalytic flow reactor, S Chen, S Perathoner, C Ampelli, H Wei, S Abate, B Zhang, G Centi, ChemElectroChem 2020, 7(14), 3028-3037. Link
  • Enhancing N2 Fixation Activity by Converting Ti3C2 MXenes Nanosheets to Nanoribbons, H Wei, Q Jiang, C Ampelli, S Chen, S Perathoner, Y Liu, G Centi, ChemSusChem 2020, 13(21), 5614-5619. Link
  • The 2020 plasma catalysis roadmap, A Bogaerts, X Tu, JC Whitehead, G Centi, L Lefferts, O Guaitella, et al., J.Phys. D: Appl. Physics 2020, 53 (44), 443001. Link
  • Plasma Technology for CO2 Conversion: A Personal Perspective on Prospects and Gaps. A Bogaerts, G Centi, Frontiers Energy Res 2020, 8, 111. Link
  • Economics of CO2 utilization: a critical analysis, G Centi, S Perathoner, A Salladini, G Iaquaniello. Frontiers Energy Res 2020, 8, 241, Link
  • A novel gas flow-through photocatalytic reactor based on copper-functionalized nanomembranes for the photoreduction of CO2 to C1-C2 carboxylic acids and C1-C3 alcohols, D Giusi, C Ampelli, C Genovese, S Perathoner, G Centi, Chem. Eng. J. 2021, 408, 127250, Link
  • Redesign chemical processes to substitute the use of fossil fuels: A viewpoint of the implications on catalysis, G. Centi, S. Perathoner, Catal. Today, in press, 2021. DOI: 10.1016/j.cattod.2021.03.007, Link

     
ChemElectroChem cover Page                          Cover page ChemSusChem               

Other recent G. Centi publications related to the topics of the SCOPE project
  • Chemistry and energy beyond fossil fuels. A perspective view on the role of syngas from waste sources, G Centi, S Perathoner, Catal. Today 2020, 342, 4-12. Link
  • Elucidating the mechanism of the CO2 methanation reaction over Ni–Fe hydrotalcite-derived catalysts via surface-sensitive in situ XPS and NEXAFS, G Giorgianni, C Mebrahtu, ME Schuster, AI Large, G Held, P Ferrer, F Venturini, D Grinter, R Palkovits, S Perathoner, G Centi, Se Abate, R Arrigo, Phys Chem Chem Phys 2020, 22, 18788-18797. Link
  • Electrocatalytic reduction of CO2 over dendritic-type Cu-and Fe-based electrodes prepared by electrodeposition, BC Marepally, C Ampelli, C Genovese, F Tavella, EA Quadrelli, S Perathoner, G Centi, J.CO2 Utilization 2020, 35, 194-204. Link
  • Chemical engineering role in the use of renewable energy and alternative carbon sources in chemical production, G Centi, G Iaquaniello, S Perathoner, BMC Chem Eng 2019, 1 (1), 1-16. Link
  • CO2 Reduction of Hybrid Cu2O–Cu/Gas Diffusion Layer Electrodes and their Integration in a Cu‐based Photoelectrocatalytic Cell, JF de Brito, C Genovese, F Tavella, C Ampelli, MV Boldrin Zanoni, G Centi, S Perathoner, ChemSusChem 2019, 12 (18), 4274-4284. Link
  • Catalysis for solar-driven chemistry: the role of electrocatalysis, S Perathoner, G Centi, Catal Today 2019, 330, 157-170. Link
  • Effect of Current Density on Product Distribution for the Electrocatalytic Reduction of CO2, C Ampelli, C Genovese, D Cosio, S Perathoner, G Centi, Chem Eng Trans 2019, 74, 1285-1290. Link
  • Needs and Gaps for Catalysis in Addressing Transitions in Chemistry and Energy from a Sustainability Perspective, G Centi, J Čejka, ChemSusChem 2019, 12 (3), 621-632. Link
  • 2D oxide nanomaterials to address the energy transition and catalysis, CJ Heard, J Čejka, M Opanasenko, P Nachtigall, G Centi, S Perathoner. Advanced Materials 2019, 31 (3), 1801712. Link
  • Green methanol synthesis by catalytic CO2 hydrogenation, deciphering the role of metal-metal interaction, MA Alotaibi, IU Din, AI Alharthi, MA Bakht, G Centi, MS Shaharun,et alo., Sustainable Chemistry and Pharmacy 2021, 21, 100420, Link
  • Role of nanostructure in the behaviour of BiVO4–TiO2 nanotube photoanodes for solar water splitting in relation to operational conditions, JAL Perini, F Tavella, EPF Neto, MVB Zanoni, SJL Ribeiro, D Giusi, G Centi, S Perathoner, C Ampelli,
    Solar Energy Materials and Solar Cells 2021, 223, 110980, Link
  • Improved Nanocomposite Photoanodes by Controlled Deposition of gC3N4 on Titania Nanotube Ordered Films
    R Passalacqua, S Abate, S Perathoner, G Centi, Chem. Eng. Trans. 2021, 84,25-30, Link
  • gC3N4 Decorated TiO2 Nanotube Ordered Thin Films as Cathodic Electrodes for the Selective Reduction of Oxalic Acid
    F De Luca, R Passalacqua, FP Abramo, S Perathoner, G Centi, S Abate, Chem. Eng. Trans. 2021, 84,37-42.  Link
  • Comparing molecular mechanisms in solar NH3 production and relations with CO2 reduction
    D Mallamace, G Papanikolaou, S Perathoner, G Centi, P Lanzafame, Int J Molecular Sciences 2021, 22 (1), 139   Link

Full list of publications (updated) on Google Scholar at this Link

ERC Synergy SCOPE ID# 810182
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