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Recent Publications

Publications
Aug 22th, 2025 - For an update see Google Scholar  G. Centi  S. Perathoner

2025
  1. Suliman, M. H.; Usman, M.; Al Naji, H.; Abdinejad, M.; Ullah, N.; Helal, A.; Abdelnaby, M. M.; Díaz-Sainz, G.; Centi, G. CO2 electroreduction to C2 products on bimetallic silver copper melamine complexes. Carbon Capture Science & Technology 2025, 14, 100355.
  2. Li, S.; Liu, X.; Ma, J.; Xu, F.; Lyu, Y.; Perathoner, S.; Centi, G.; Liu, Y. Develop High-Performance Cu-Based RWGS Catalysts by Controlling Oxide–Oxide Interface. ACS Catalysis 2025, 15, 3475-3486.
  3. Centi, G.; Perathoner, S. Electrocatalysis: Prospects and Role to Enable an E‐Chemistry Future. The Chemical Record 2025, e202400259.
  4. Centi, G.; Perathoner, S. Addressing the Complexity of Bridging Thermal and Reactive Catalysis. The Role of Strong Localised Electrical Fields. Topics in Catalysis 2025, DOI: 10.1007/s11244-025-02062-7.
  5. Bogaerts, A.; Centi, G.; Hessel, V.; Rebrov, E. Perspectives and Emerging Trends in Plasma Catalysis: Facing the Challenge of Chemical Production Electrification. ChemCatChem 2025, 17 , e202401938.
  6. AM Ronsisvalle, D Giusi, M Samperi, C Genovese, S Perathoner, G Centi, C Ampelli, Does the presence of only specific active sites control the switch of selectivity from C1 to C2+ products in CO2RR? J. CO2 Utilization 2025, 100, 103188
  7. D Chillè, G Papanikolaou, P Squillaci, S Abate, C Cannilla, P Lanzafame, S Perathoner, G Centi, Metal-free (B, N, P)-doped ordered mesoporous carbons for enhanced electrocatalytic oxidation of phenol, Applied Catalysis O: Open, 2025, 207067, DOI: 10.1016/j.apcato.2025.207067
  8. M Miceli, F Tavella, D Giusi, ME Tefera, MF Torre, S Perathoner, G Centi, C Ampelli, Activation of Dinitrogen Molecule (N2) in Unconventional Electrochemical Reactors for Ammonia Production, Chem. Eng. Trans. 2025, 117, 733-738
  9. S Li, J Ma, N Wang, X Liu, W Cui, Y Lyu, S Perathoner, G Centi, Y Liu, Engineering dual-active sites on CeOx-modified defective MgO for efficient CO2 thermocatalytic reduction, J Energy Chemistry 2025, 110, 486-496
  10. V Longo, S Perathoner, G Centi, C Genovese, Mitigation of C-deposits in plasma-assisted non-oxidative methane coupling using a water-cooled double dielectric barrier discharge reactor, Chem. Eng.  J. 2025, 164334
  11. M Usman, MH Suliman, M Abdinejad, J Kok, H Al Naji, A Helal, ZH Yamani, G Centi, Highly efficient CO2 electroreduction to formate using Bismuth nanodots within ZIF-8 scaffold, Carbon Capture Science & Techn 2025, 16, 100450
  12. X Ren, J Huang, J Ma, Y Zhang, W Chu, S Perathoner, G Centi, Y Liu, Boosting the activity in the liquid-phase hydrogenation of S-containing nitroarenes by dual-site Pt/CeO2 catalysts design, Nature Comm 2025, 16, 4851
  13. FP Abramo, G Giorgianni, S Perathoner, G Centi, F Gallucci, S Abate, Unlocking the impact of electrode porosity on CO2 splitting efficiency in porous DBD plasma reactors, Chem Eng J 2025, 512, 162608
  14. J Ma, B Xu, S Cao, S Li, W Chu, S Perathoner, G Centi, Y Liu, Structural dynamics of Ni/Mo2CTx MXene catalysts under reaction modulate CO2 reduction performance, Chin J Catal 2025, 72, 243-253
  15. A Bogaerts, G Centi, JC Hicks, Introduction to understanding and new approaches to create synergy between catalysis and plasma themed collection, EES Catal 2025, 3, 592-594
  16. V Longo, L De Pasquale, S Perathoner, G Centi, C Genovese, Synergistic effects of light and plasma catalysis on Au-modified TiO2 nanotube arrays for enhanced non-oxidative coupling of methane, Catalysis Science & Techn 2025, 15, 3725-3735

2024
  1. Wang, J.; Li, Y.; Hummel, C.; Huang, G.; Ji, X.; Demiröz, E.; Urakawa, A.; Huang, S.; Zhao, R.; Lercher, J. Electrocatalytic Production of a Liquid Organic Hydrogen Carrier with Anodic Valorization of the Process: Review and Outlook. Energy & Fuels 2024, 39 (1), 132-165.
  2. Verduci, R.; Creazzo, F.; Tavella, F.; Abate, S.; Ampelli, C.; Luber, S.; Perathoner, S.; Cassone, G.; Centi, G.; D’Angelo, G. Water structure in the first layers on TiO2: a key factor for boosting solar-driven water-splitting performances. Journal of the American Chemical Society 2024, 146 (26), 18061-18073.
  3. Tuci, G.; Rossin, A.; Saki, Z.; Caporaso, L.; Liu, Y.; Centi, G.; Giambastiani, G. The Still Elusive Role of Lightweight Doping in Carbon‐Based Electrocatalysts for the Selective Oxygen Reduction Reaction to Hydrogen Peroxide. ChemSusChem 2024, 17 (22), e202400660.
  4. Serrano, D. P.; Centi, G.; Diddams, P. A.; Čejka, J. Outlooks for zeolite catalysts in a low-carbon scenario. Catalysis Today 2024, 426, 114365.
  5. Papanikolaou, G.; Centi, G.; Perathoner, S.; Lanzafame, P. Green synthesis and sustainable processing routes. Current Opinion in Green and Sustainable Chemistry 2024, 100918.
  6. Maccarrone, D.; Giorgianni, G.; Italiano, C.; Perathoner, S.; Centi, G.; Abate, S. Comparative analysis of hydrogen production from ammonia decomposition in membrane and packed bed reactors using diluted NH3 streams. International Journal of Hydrogen Energy 2024, 82, 513-522.
  7. Ma, J.; Jiang, Q.; Li, S.; Chu, W.; Qian, H.; Perathoner, S.; Centi, G.; Liu, Y. High-dispersed CeOx species on mesopores silica to accelerate Ni-catalysed CO2 methanation at low temperatures. Chemical Engineering Journal 2024, 479, 147453.
  8. Longo, V.; De Pasquale, L.; Tavella, F.; Barawi, M.; Gomez-Mendoza, M.; de la Peña O’Shea, V.; Ampelli, C.; Perathoner, S.; Centi, G.; Genovese, C. High photocatalytic yield in the non-oxidative coupling of methane using a Pd–TiO2 nanomembrane gas flow-through reactor. EES catalysis 2024, 2 (5), 1164-1175.
  9. Longo, V.; Centi, G.; Perathoner, S.; Genovese, C. CO2 utilisation with plasma technologies. Current Opinion in Green and Sustainable Chemistry 2024, 46, 100893.
  10. Kang, H.; Ma, L.; Li, S.; Chen, X.; Chu, W.; Zhang, R.; Perathoner, S.; Centi, G.; Liu, Y. Oxygen vacancy-dependent chemical intermediates on Ru/MnO catalysts dictate the selectivity of CO2 reduction. Applied Catalysis B: Environment and Energy 2024, 352, 124010.
  11. Giorgianni, G.; Van Putten, R.-J.; Van Der Waal, J. C.; Perathoner, S.; Centi, G.; Abate, S. The Conversion of 5-chloromethylfurfural Into 5-methoxymethylfurfural via Nucleophilic Substitution: Kinetic Modelling. Chemical Engineering Transactions 2024, 109, 265-270.
  12. (Centi, G.; Perathoner, S. Reduction of Non-CO2 Greenhouse Gas Emissions by Catalytic Processes. In Handbook of Climate Change Mitigation and Adaptation, Springer, 2024; pp 1-43.
  13. Centi, G.; Perathoner, S. CO2 Electrocatalytic Conversion: Outlooks, Pitfalls and Scientific Gaps. In Advances in CO2 Utilization: From Fundamentals to Applications, Springer Nature Singapore Singapore, 2024; pp 133-155.
  14. Centi, G.; Perathoner, S. Rethinking chemical production with “green” hydrogen. Pure and Applied Chemistry 2024, 96 (4), 471-477.
  15. Centi, G.; Perathoner, S. Making chemicals from the air: the new frontier for hybrid electrosyntheses in artificial tree-like devices. Green Chemistry 2024, 26 (1), 15-41.
  16. Centi, G.; Liu, Y.; Perathoner, S. Catalysis for Carbon‐Circularity: Emerging Concepts and Role of Inorganic Chemistry. ChemSusChem 2024, 17 (21), e202400843.
  17. Centi, G.; Ampelli, C. CO2 conversion to solar fuels and chemicals: Opening the new paths. Journal of Energy Chemistry 2024, 91, 680-683.
  18. Abramo, F. P.; De Luca, F.; Chiodoni, A.; Centi, G.; Giorgianni, G.; Italiano, C.; Perathoner, S.; Abate, S. Nanostructure-performance relationships in titania-only electrodes for the selective electrocatalytic hydrogenation of oxalic acid. Journal of Catalysis 2024, 429, 115277.

2023
  1. Tavella, F.; Genovese, C.; Pineda, F. A. G.; Centi, G.; Perathoner, S.; Ampelli, C. Tantalum oxynitride nanotube film arrays for unconventional nanostructured photo-electrodes active with visible light. Catalysis Today 2023, 418, 114146.
  2. Passalacqua, R.; Abate, S.; De Luca, F.; Perathoner, S.; Centi, G. Graphitic Layered Structures Enhancing TiNT Catalyst Photo-Electrochemical Behaviour. Coatings 2023, 13 (2), 358.
  3. Papanikolaou, G., Chillè, D., Perathoner, S., Centi, G.; Migliori, M.; Giordano, G., Lanzafame, P. Use of zeolites in green chemicals and bio-fuel production via HMF valorisation. Microporous and Mesoporous Materials 2023, 418, 114146.
  4. Mebrahtu, C.; Krebs, F.; Giorgianni, G.; Abate, S.; Perathoner, S.; Centi, G.; Large, A. I.; Held, G.; Arrigo, R.; Palkovits, R. Insights by in-situ studies on the nature of highly-active hydrotalcite-based Ni-Fe catalysts for CO2 methanation. Chemical Engineering Research and Design 2023, 193, 320-339.
  5. Marino, A.; Catizzone, E.; Migliori, M.; Ferrarelli, G.; Aloise, A.; Chillè, D.; Papanikolaou, G.; Lanzafame, P.; Perathoner, S.; Centi, G. Hydrothermal synthesis and catalytic assessment of high-silica (B, Fe)-beta zeolites. Crystal Growth & Design 2023, 23 (4), 2988-3001.
  6. Kang, H.; Zhu, L.; Li, S.; Yu, S.; Niu, Y.; Zhang, B.; Chu, W.; Liu, X.; Perathoner, S.; Centi, G. Generation of oxide surface patches promoting H-spillover in Ru/(TiO x) MnO catalysts enables CO2 reduction to CO. Nature Catalysis 2023, 6 (11), 1062-1072.
  7. Kang, H.; Ma, J.; Perathoner, S.; Chu, W.; Centi, G.; Liu, Y. Understanding the complexity in bridging thermal and electrocatalytic methanation of CO2. Chemical Society Reviews 2023, 52, 3627-3662.
  8. Gu, Q.; Huang, R.; Xu, C.; Li, S.; Perathoner, S.; Centi, G.; Liu, Y. Nanodiamond derived N-doped sp3@sp2 hybrid carbocatalysts for the aerobic oxidative synthesis of 2-substituted benzoxazoles. Chemical Synthesis 2023, 3 (3), N/A-N/A.
  9. Giorgianni, G.; Perathoner, S.; Centi, G.; Soo-Tang, S.-H.; de Jong, E.; van der Waal, J. C.; Abate, S. Exploring the hydrogenation of furfural in the liquid phase by high-throughput screening of commercial catalysts: Effects of temperature, solvents, and promoters on the production of 2-methylfuran. Chemical Engineering Research and Design 2023, 197, 968-983.
  10. Gianolio, D., Higham, M.D., Quesne, M.G., Aramini, M.; Xu, R.; Large, A. I.; Held, G.; Velasco-Vélez, J.-J.; Haevecker, M.; Knop-Gericke, A.; Genovese, C.; Ampelli, C.; Schuster, M. E. Interfacial Chemistry in the Electrocatalytic Hydrogenation of CO2 over C-Supported Cu-Based Systems. ACS Catalysis 2023, 13 (9), 5876-5895.
  11. Fasolini, A.; Mafessanti, R.; Abate, S.; Gramazio, P.; De Maron, J.; Centi, G.; Basile, F. Integration of catalytic methane oxy-reforming and water gas shift membrane reactor for intensified pure hydrogen production and methanation suppression over Ce0. 5Zr0.5O2 based catalysts. Catalysis Today 2023, 418, 114047.
  12. Din, I. U.; Alotaibi, M. A.; Alharthi, A. I.; Naeem, A.; Centi, G. Synthesis, characterization and activity of CeO2 supported Cu-Mg bimetallic catalysts for CO2 to methanol. Chemical Engineering Research and Design 2023, 192, 158-166.
  13. De Pasquale, L.; Tavella, F.; Longo, V.; Favaro, M.; Perathoner, S.; Centi, G.; Ampelli, C.; Genovese, C. The role of substrate surface geometry in the photo-electrochemical behaviour of supported TiO2 nanotube arrays: a study using electrochemical impedance spectroscopy (EIS). Molecules 2023, 28 (8), 3378.
  14. Centi, G.; Perathoner, S.; Genovese, C.; Arrigo, R. Advanced (photo) electrocatalytic approaches to substitute the use of fossil fuels in chemical production. Chemical Communications 2023, 59 (21), 3005-3023.
  15. Centi, G.; Perathoner, S. The chemical engineering aspects of CO2 capture, combined with its utilisation. Current Opinion in Chemical Engineering 2023, 39, 100879.
  16. Centi, G.; Perathoner, S. Catalysis for an electrified chemical production. Catalysis Today 2023, 423, 113935.
  17. Centi, G.; Liu, Y. Editorial overview: Electrochemical synthesis 2022. Current Opinion in Green and Sustainable Chemistry 2023, 39, 100735.
  18. Bogaerts, A.; Centi, G.; Hessel, V.; Rebrov, E. Challenges in unconventional catalysis. Catalysis Today 2023, 420, 114180.
  19. Appolloni, A.; Centi, G.; Yang, N. Promoting carbon circularity for a sustainable and resilience fashion industry. Current Opinion in Green and Sustainable Chemistry 2023, 39, 100719.
  20. Ampelli, C.; Tavella, F.; Giusi, D.; Ronsisvalle, A. M.; Perathoner, S.; Centi, G. Electrode and cell design for CO2 reduction: A viewpoint. Catalysis Today 2023, 421, 114217.
  21. Ampelli, C.; Giusi, D.; Miceli, M.; Merdzhanova, T.; Smirnov, V.; Chime, U.; Astakhov, O.; Martín, A. J.; Veenstra, F. L. P.; Pineda, F. A. G. An artificial leaf device built with earth-abundant materials for combined H2 production and storage as formate with efficiency> 10%. Energy & Environmental Science 2023, 16 (4), 1644-1661.

2022
  1. Tabandeh, M.; Cheng, C. K.; Centi, G.; Show, P. L.; Chen, W.-H.; Ling, T. C.; Ong, H. C.; Ng, E.-P.; Juan, J. C.; Lam, S. S. Recent advancement in deoxygenation of fatty acids via homogeneous catalysis for biofuel production. Molecular Catalysis 2022, 523, 111207.
  2. Papanikolaou, G.; Chille, D.; Abate, S.; Perathoner, S.; Centi, G.; Giorgianni, G.; Cozza, D.; Dalena, F.; Migliori, M.; Giordano, G. Zeolite templated carbon from Beta replica as metal-free electrocatalyst for CO2 reduction. Applied Materials Today 2022, 26, 101383.
  3. Papanikolaou, G.; Centi, G.; Perathoner, S.; Lanzafame, P. Catalysis for e-chemistry: need and gaps for a future de-fossilized chemical production, with focus on the role of complex (direct) syntheses by electrocatalysis. ACS catalysis 2022, 12 (5), 2861-2876.
  4. Giusi, D.; Miceli, M.; Genovese, C.; Centi, G.; Perathoner, S.; Ampelli, C. In situ electrochemical characterization of CuxO-based gas-diffusion electrodes (GDEs) for CO2 electrocatalytic reduction in presence and absence of liquid electrolyte and relationship with C2+ products formation. Applied Catalysis B: Environmental 2022, 318, 121845.
  5. Giorgianni, G.; Mebrahtu, C.; Perathoner, S.; Centi, G.; Abate, S. Hydrogenation of dimethyl oxalate to ethylene glycol on Cu/SiO2 catalysts prepared by a deposition-decomposition method: Optimization of the operating conditions and pre-reduction procedure. Catalysis Today 2022, 390, 343-353.
  6. Demet, A. E.; Gimello, O.; Arletti, R.; Tanchoux, N.; Sougrati, M. T.; Stievano, L.; Quignard, F.; Centi, G.; Perathoner, S.; Di Renzo, F. 5-Hydroxymethylfurfural oxidation to 2, 5-furandicarboxylic acid on noble metal-free nanocrystalline mixed oxide catalysts. Catalysts 2022, 12 (8), 814.
  7. Centi, G.; Perathoner, S.; Salladini, A. laquaniello G (2020) Economics of CO2 Utilization: A Critical Analysis. Front. Beyond Current Research Trends in CO2 Utilization 2022, 8, 560849109.
  8. Centi, G.; Perathoner, S. Turning CO2 into fuels and chemicals: An introduction. Chemical Valorisation of Carbon Dioxide, Edited by Georgios Stefanidis; Andrzej Stankiewicz, RCS 2022, pp. 1 - 18.
  9. Centi, G.; Perathoner, S. Status and gaps toward fossil-free sustainable chemical production. Green Chemistry 2022, 24 (19), 7305-7331.
  10. Centi, G.; Perathoner, S. Catalytic Technologies for the Conversion and Reuse of CO2. In Handbook of Climate Change Mitigation and Adaptation, Springer International Publishing Cham, 2022; pp 1803-1852.
  11. Centi, G.; Perathoner, S. Revealing the role of edges in the electrocatalytic synthesis of H2O2 over metal-free nanocarbon. Chem Catalysis 2022, 2 (6), 1251-1253.
  12. Centi, G.; Perathoner, S. Reduction of Non-CO2 Greenhouse Gas Emissions by Catalytic Processes. In Handbook of Climate Change Mitigation and Adaptation, Springer International Publishing Cham, 2022; pp 1759-1802.
  13. Centi, G.; Perathoner, S. Photoelectrocatalytic CO2 Activation Toward Artificial Leaves: Outlooks and Needs of a System Approach. In Chemical Energy Storage, De Gruyter, 2022; pp 499-536.
  14. Centi, G.; Perathoner, S. Redesign chemical processes to substitute the use of fossil fuels: A viewpoint of the implications on catalysis. Catalysis Today 2022, 387, 216-223.
  15. Centi, G. Across the board: Gabriele Centi on decoupling electrocatalytic reactions to electrify chemical production. ChemSusChem 2022, 15 (4), e202200007.
  16. Centi, G. Controlled location of S vacancies in MoS2 nanosheets for high-performance hydrogenation of CO2 to methanol. Journal of Energy Chemistry 2022, 64, 113-115.
  17. Borgogna, A.; Centi, G.; Iaquaniello, G.; Perathoner, S.; Papanikolaou, G.; Salladini, A. Assessment of hydrogen production from municipal solid wastes as competitive route to produce low-carbon H2. Science of The Total Environment 2022, 827, 154393.
  18. Abramo, F. P.; De Luca, F.; Passalacqua, R.; Centi, G.; Giorgianni, G.; Perathoner, S.; Abate, S. Electrocatalytic production of glycolic acid via oxalic acid reduction on titania debris supported on a TiO2 nanotube array. Journal of Energy Chemistry 2022, 68, 669-678.

2021
  1. Romano, V.; D’Angelo, G.; Perathoner, S.; Centi, G. Current density in solar fuel technologies. Energy & Environmental Science 2021, 14 (11), 5760-5787.
  2. Perini, J. A. L.; Tavella, F.; Neto, E. P. F.; Zanoni, M. V. B.; Ribeiro, S. J. L.; Giusi, D.; Centi, G.; Perathoner, S.; Ampelli, C. Role of nanostructure in the behaviour of BiVO4–TiO2 nanotube photoanodes for solar water splitting in relation to operational conditions. Solar Energy Materials and Solar Cells 2021, 223, 110980.
  3. Perathoner, S.; Van Geem, K. M.; Marin, G. B.; Centi, G. Reuse of CO2 in energy intensive process industries. Chemical Communications 2021, 57 (84), 10967-10982.
  4. Passalacqua, R.; Pellicano, L. C.; Abate, S.; Perathoner, S.; Centi, G. NiFe Oxide Catalysts for Electro-Oxidation of Glucose. Energy 2021, 5000, 6000.
  5. Passalacqua, R.; Abate, S.; Perathoner, S.; Centi, G. Improved Nanocomposite Photoanodes by Controlled Deposition of gC3N4 on Titania Nanotube Ordered Films. Chem Eng Trans 2021, 84, 25-30.
  6. Papanikolaou, G.; Lanzafame, P.; Perathoner, S.; Centi, G.; Cozza, D.; Giorgianni, G.; Migliori, M.; Giordano, G. High performance of Au/ZTC based catalysts for the selective oxidation of bio-derivative furfural to 2-furoic acid. Catalysis Communications 2021, 149, 106234.
  7. Marepally, B.; Ampelli, C.; Genovese, C.; Sayah, R.; Veyre, L.; Dalverny, C.; Thieuleux, C.; Quadrelli, E.; Perathoner, S.; Centi, G. Supported metallic nanoparticles prepared by an organometallic route to boost the electrocatalytic conversion of CO2. Journal of CO2 Utilization 2021, 50, 101613.
  8. Ma, J.; Jiang, Q.; Zhou, Y.; Chu, W.; Perathoner, S.; Jiang, C.; Wu, K. H.; Centi, G.; Liu, Y. Tuning the chemical properties of Co–Ti3C2Tx MXene materials for catalytic CO2 reduction. Small 2021, 17 (26), 2007509.
  9. Giusi, D.; Tavella, F.; Miceli, M.; Ampelli, C.; Centi, G.; Cosio, D.; Genovese, C.; Perathoner, S. Synergetic Electrocatalytic Effects of Cu2O-TiO2 Heterostructures in a Solar Driven PEC Device for CO2 Reduction to> C1 Chemicals. Chemical Engineering Transactions 2021, 86, 1405-1410.
  10. Giusi, D.; Ampelli, C.; Genovese, C.; Perathoner, S.; Centi, G. 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. Chemical Engineering Journal 2021, 408, 127250.
  11. Din, I. U.; Usman, M.; Khan, S.; Helal, A.; Alotaibi, M. A.; Alharthi, A. I.; Centi, G. Prospects for a green methanol thermo-catalytic process from CO2 by using MOFs based materials: A mini-review. Journal of CO2 Utilization 2021, 43, 101361.
  12. De Luca, F.; Passalacqua, R.; Abramo, F. P.; Perathoner, S.; Centi, G.; Abate, S. gC3N4 Decorated TiO2 Nanotube Ordered Thin Films as Cathodic Electrodes for the Selective Reduction of Oxalic Acid. Chem Eng Trans 2021, 84, 37-42.
  13. Centi, G.; Perathoner, S.; Papanikolaou, G. Plasma assisted CO2 splitting to carbon and oxygen: A concept review analysis. Journal of CO2 Utilization 2021, 54, 101775.
  14. Centi, G.; Perathoner, S. 1 Applications of hydrogen technologies and their role for a sustainable future. In Utilization of Hydrogen for Sustainable Energy and Fuels, Vol. 3; De Gruyter Pub. Berlin, 2021; pp 137-156.
  15. Centi, G.; Perathoner, S. Nanocarbon for energy material applications: N2 reduction reaction. Small 2021, 17 (48), 2007055.
  16. Arrigo, R.; Blume, R.; Streibel, V.; Genovese, C.; Roldan, A.; Schuster, M. E.; Ampelli, C.; Perathoner, S.; Velasco Vélez, J. J.; Hävecker, M. Dynamics at polarized carbon dioxide–iron oxyhydroxide interfaces unveil the origin of multicarbon product formation. ACS Catalysis 2021, 12 (1), 411-430.
  17. Alotaibi, M. A.; Din, I. U.; Alharthi, A. I.; Bakht, M. A.; Centi, G.; Shaharun, M. S.; Naeem, A. Green methanol synthesis by catalytic CO2 hydrogenation, deciphering the role of metal-metal interaction. Sustainable Chemistry and Pharmacy 2021, 21, 100420.
  18. Alotaibi, M. A.; Din, I. U.; Alharthi, A. I.; Ahmad, P.; Naeem, A.; ElSayed, I.; Centi, G. Synthesis, characterization, and magnetic behavior of cobalt-ferrite nanoparticles under variant temperature conditions. Physics of the Solid State 2021, 63 (4), 519-524.
  19. Alharthi, A. I.; Din, I. U.; Alotaibi, M. A.; Centi, G. Application of cobalt ferrite nano-catalysts for methanol synthesis by CO2 hydrogenation: deciphering the role of metals cations distribution. Ceramics International 2021, 47 (13), 19234-19240.

2020
  1. Creation of NC= O active groups on N-doped CNT as an efficient CarboCatalyst for solvent-free aerobic coupling of benzylamine
    H Wei, Y Ma, J Luo, KH Wu, W Xie, G Wen, CL Chiang, W Yan, S Perathoner, G Centi, Y Liu
    Carbon 2020, 170, 338-346
  2. 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
    Journal of Energy Chemistry 2020, 49, 22-32
  3. Recent advancement in deoxygenation of fatty acids via homogeneous catalysis for biofuel production
    M Tabandeh, CK Cheng, G Centi, PL Show, WH Chen, TC Ling, HC Ong, E-P Ng, J C Juan, S S Lam
    Molecular Catalysis 2020, 111207
  4. 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, in press
    Also cover page.
  5. The 2020 plasma catalysis roadmap
    A Bogaerts, X Tu, JC Whitehead, G Centi, L Lefferts, O Guaitella, et al.
    Journal of Physics D: Applied Physics 2020, 53 (44), 443001
  6. Plasma Technology for CO2 Conversion: A Personal Perspective on Prospects and Gaps.
    A Bogaerts, G Centi
    Frontiers Energy Res 2020, 8, 111 2020
  7. 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
    Also cover page.
  8. Weakly acidic zeolites: A review on uses and relationship between nature of the active sites and catalytic behaviour
    P Lanzafame, G Papanikolaou, S Perathoner, G Centi, G Centi, G Giordano, M Migliori
    Microporous and Mesoporous Materials 2020, 300, 110157
  9. Chemistry and energy beyond fossil fuels. A perspective view on the role of syngas from waste sources
    G Centi, S Perathoner
    Catalysis Today 2020, 342, 4-12
  10. Deoxygenation of triolein to green diesel in the H2-free condition: Effect of transition metal oxide supported on zeolite Y
    MY Choo, LE Oi, TC Ling, EP Ng, YC Lin, G Centi, JC Juan
    Journal of Analytical and Applied Pyrolysis 2020, 147, 104797
  11. Highly selective bifunctional Ni zeo-type catalysts for hydroprocessing of methyl palmitate to green diesel
    G Papanikolaou, P Lanzafame, G Giorgianni, S Abate, S Perathoner, G Centi
    Catalysis Today 2020, 345, 14-21
  12. Economics of CO2 utilization: a critical analysis
    G Centi, S Perathoner, A Salladini, G Iaquaniello
    Frontiers in Energy Research 2020, 8, 241
  13. Deposition of NiO Nanoparticles on Nanosized Zeolite NaY for Production of Biofuel via Hydrogen-Free Deoxygenation
    MY Choo, LE Oi, TJ Daou, TC Ling, YC Lin, G Centi, EP Ng, JC Juan
    Materials 2020, 13 (14), 3104
  14. Elucidating the mechanism of the CO 2 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, S Abate, R Arrigo
    Physical Chemistry Chemical Physics 2020, 22, 18788-18797
  15. 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
    Journal of CO2 Utilization 2020, 35, 194-20

2019
  1. Chemical engineering role in the use of renewable energy and alternative carbon sources in chemical production
    G Centi, G Iaquaniello, S Perathoner
    BMC Chemical Engineering 2019, 1, 5/1-16
  2. Highly Efficient Metal-Free Nitrogen-Doped Nanocarbons with Unexpected Active Sites for Aerobic Catalytic Reactions
    Y Lin, Z Liu, Y Niu, B Zhang, Q Lu, S Wu, G Centi, S Perathoner, S Heumann, L Yu, D S Su
    ACS Nano 2019, 13 (12), 13995-14004
  3. 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
  4. Etherification of HMF to biodiesel additives: The role of NH4+ confinement in Beta zeolites
    P Lanzafame, G Papanikolaou, K Barbera, G Centi, S Perathoner
    Journal of Energy Chemistry 2019, 36, 114-121
  5. Pure H2 production by methane oxy-reforming over Rh-Mg-Al hydrotalcite-derived catalysts coupled with a Pd membrane
    A Fasolini, S Abate, D Barbera, G Centi, F Basile
    Applied Catalysis A: General 2019, 581, 91-102
  6. In Memoriam: Dang Sheng Su (1961–2019)
    G Centi
    Journal of Energy Chemistry 2019, 38 (1), xii
  7. Reassembly mechanism in Fe-Silicalite during NH4OH post-treatment and relation with the acidity and catalytic reactivity
    P Lanzafame, G Papanikolaou, S Perathoner, G Centi, M Migliori, E Catizzone, G Giordano
    Applied Catalysis A: General 2019, 580, 186-196 8 2019
  8. Catalysis for solar-driven chemistry: the role of electrocatalysis
    S Perathoner, G Centi
    Catalysis Today 2019, 330, 157-170
  9. Effect of Current Density on Product Distribution for the Electrocatalytic Reduction of CO2
    C Ampelli, C Genovese, D Cosio, S Perathoner, G Centi
    Chemical Engineering Transactions 2019, 74, 1285-1290
  10. Special Issue to Mark the 50th Anniversary of the Jerzy Haber Institute of Catalysis and Surface Chemistry, Polish Academy of Sciences
    G Centi, D Rutkowska‐Zbik
    ChemSusChem 2019, 12, 554 – 555
  11. 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
  12. Direct synthesis of H2O2 on Pd based catalysts: modelling the particle size effects and the promoting role of polyvinyl alcohol
    G Giorgianni, S Abate, G Centi, S Perathoner
    ChemCatChem 2019, 11, 550 – 559
  13. The vision of future sustainable energy, catalyst, and chemistry: opportunities for innovation and business
    A Basile, G Centi, M De Falco, G Iaquaniello
    Studies in Surface Science and Catalysis 2019, 179, 7-20
  14. Deactivation mechanism of hydrotalcite-derived Ni–AlO x catalysts during low-temperature CO 2 methanation via Ni-hydroxide formation and the role of Fe in limiting this effect
    C Mebrahtu, S Perathoner, G Giorgianni, S Chen, G Centi, F Krebs, R Palkovits, S Abate
    Catalysis Science & Technology 2019, 9 (15), 4023-4035
  15. Artificial leaves using sunlight to produce fuels
    S Perathoner, G Centi
    Studies in Surface Science and Catalysis 2019, 179, 415-430
  16. Production of Solar Fuels using CO2
    BC Marepally, C Ampelli, C Genovese, EA Quadrelli, S Perathoner, G Centi
    Studies in Surface Science and Catalysis 2019, 178, 7-30
  17. CO2 Methanation: Principles and Challenges
    C Mebrahtu, F Krebs, S Abate, S Perathoner, G Centi, R Palkovits
    Studies in Surface Science and Catalysis 2019, 178, 85-103
  18. Electrochemical Dinitrogen Activation: To Find a Sustainable Way to Produce Ammonia
    S Chen, S Perathoner, C Ampelli, G Centi
    Studies in Surface Science and Catalysis 2019, 178, 31-46
  19. On the R&D Landscape Evolution in Catalytic Upgrading of Biomass
    AE Demet, N Tanchoux, G Centi, R De Luca, S Perathoner, F Di Renzo, W Vermeiren
    Studies in Surface Science and Catalysis 2019, 178, 149-171 201
  20. 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  
  21. The role of nanosized zeolite Y in the H 2-free catalytic deoxygenation of triolein
    MY Choo, JC Juan, LE Oi, TC Ling, EP Ng, AR Noorsaadah, G Centi, K TLee
    Catalysis Science & Technology 2019, 9 (3), 772-782
2018

  1. Monodisperse magnetite nanoparticles with high sensitivity as MRI contrast agents
    E Amato, P Lanzafame, AS Italiano, G Cicero, G Papanikolaou, G Centi, F Minutoli
    AAPP (Atti della Accademia Peloritana dei Pericolanti-Classe di Scienze Fisiche, Matematiche e Naturali) 2018, 96(2), A5/1-5 DOI: http://dx.doi.org/10.1478/AAPP.962A5
  2. Waste to chemicals for a circular economy
    G Iaquaniello, G Centi, A Salladini, E Palo, S Perathoner
    Chemistry–A European Journal 2018, 24 (46), 11831-11839
    Special Issue: 7th EuCheMS Chemistry Congress, Liverpool
  3. CO2 methanation over Ni/Al hydrotalcite-derived catalyst: Experimental characterization and kinetic study
    P Marocco, EA Morosanu, E Giglio, D Ferrero, C Mebrahtu, A Lanzini, S Abate, S Bensaid, S Perathoner, M Santarelli, R Pirone, G Centi
    Fuel 2018, 225, 230-242
  4. Enhanced Catalytic Activity of Iron‐Promoted Nickel on γ‐Al2O3 Nanosheets for Carbon Dioxide Methanation
    C Mebrahtu, S Abate, S Chen, AF Sierra Salazar, S Perathoner, F Krebs, R Palkovits, G Centi
    Energy Technology 2018, 6 (6), 1196-120
  5. Catalysis for chemistry transition
    G Centi
    CHIMICA OGGI-CHEMISTRY TODAY 2018, 36 (3), 4-5
  6. Water splitting on 3D-type meso/macro porous structured photoanodes based on Ti mesh
    T Saboo, F Tavella, C Ampelli, S Perathoner, C Genovese, BC Marepally, L Veyre, EA Quadrelli, G Centi
    Solar Energy Materials and Solar Cells 2018, 178, 98-105
  7. Role of CuO in the modification of the photocatalytic water splitting behavior of TiO2 nanotube thin films
    JF de Brito, F Tavella, C Genovese, C Ampelli, MVB Zanoni, G Centi, S Perathoner
    Appl Catal B: Env 2018,  224, 136-145
  8. Catalysis for solar-driven chemistry: The role of electrocatalysis
    S Perathoner, G Centi
    Catalysis Today 2018, DOI: 10.1016/j.cattod.2018.03.005
  9. Operando spectroscopy study of the carbon dioxide electro-reduction by iron species on nitrogen-doped carbon
    C Genovese, ME Schuster, EK Gibson, D Gianolio, V Posligua, R Grau-Crespo, G Cibin, PP Wells, D Garai, V Solokha, SK Calderon, JJ Velasco-Velez, C Ampelli, S Perathoner, G Held, G Centi, RArrigo
    Nature Comm 2018, 9 (1), 935
  10. New catalytic materials for energy and chemistry in transition
    J Čejka, P Nachtigall, G Centi
    Chemical Society Reviews 2018, 47, 8066 - 8071
  11. Catalysis by hybrid sp 2/sp 3 nanodiamonds and their role in the design of advanced nanocarbon materials
    Y Lin, X Sun, DS Su, G Centi, S Perathoner
    Chemical Society Reviews 2018, 47, 8438--8473
  12. Novel carbon capture and utilisation technologies
    R Schlögl, C Abanades, M Aresta, EA Blekkan, T Cantat, G Centi, N Duic, A El Khamlichi, G Hutchings, M Mazzotti, H Mikulcic
    SAPEA, Science Advice for Policy by European Academies 2018.
  13. Advanced Nanocarbon Materials for Future Energy Applications,
    S Perathoner, G Centi
    In: Emerging Materials for Energy Conversion and Storage, KY Cheong, G Impellizzeri, M Amorim Fraga Eds, Elsevier 2018, ISBN
    978-0-12-813794-9, Ch. 9, pp 305-325
  14. Direct versus acetalization routes in the reaction network of catalytic HMF etherification
    P Lanzafame, G Papanikolaou, S Perathoner, G Centi, M Migliori,  E Catizzone, A Aloise, G Giordano
    Catal Science & Techn 2018, 8 (5), 1304-1313
  15. Hydrotalcite based Ni–Fe/(Mg, Al)Ox catalysts for CO2 methanation–tailoring Fe content for improved CO dissociation, basicity, and particle size
    C Mebrahtu, F Krebs, S Perathoner, S Abate, G Centi, R Palkovits
    Catal Science & Techn 2018, 8 (4), 1016-1027
  16. Chimica con Energia Rinnovabile
    G Centi, S Perathoner
    La Chimica e l'Industria 2018, 1, 16-21
  17. CO2 methanation over Ni catalysts based on ternary and quaternary mixed oxide: a comparison and analysis of the structure-activity relationships
    C Mebrahtu, S Abate, S Perathoner, S Chen, G Centi
    Catalysis Today 2018, 304, 181-189
  18. Development of photoanodes for photoelectrocatalytic solar cells based on copper-based nanoparticles on titania thin films of vertically aligned nanotubes
    F Tavella, C Ampelli, L Frusteri, F Frusteri, S Perathoner, G Centi
    Catal. Today 2018, 304, 190-198
  19. Comparison of H+ and NH4+ forms of zeolites as acid catalysts for HMF etherification
    P Lanzafame, K Barbera, G Papanikolaou, S Perathoner, G Centi, M Migliori, E Catizzone, G Giordano
    Catalysis Today 2018, 304, 97-102
  20. Engineering of silica-supported platinum catalysts with hierarchical porosity combining latex synthesis, sonochemistry and sol-gel process–II. Catalytic performance
    AF Sierra-Salazar, V Hulea, A Ayral, T Chave, SI Nikitenko, PJ Kooyman, FD Tichelaar, S Abate, S Perathoner, P Lacroix-Desmazes
    Microporous and Mesoporous Materials 2018, 256, 227-234
  21. Hierarchical Porosity Tailoring of Sol–Gel Derived Pt/SiO2 Catalysts
    Sierra-Salazar, A.F., Ayral, A., Chave, T., Hulea, V.,  Nikitenko, S.I., Perathoner, S., Lacroix-Desmazes, P.
    Topics in Catalysis 2018, 61(14), 1424-1436
  22. Catalysts for Biofuels Production
    L Frusteri, G Bonura, S Perathoner
    Sustainable Catalysis for Biorefineries, F.Frusteri, D. Aranda, G.Bonura Eds, RCS 2018, Ch. 5, 144-180, DOI: 10.1039/9781788013567-00144  ISBN:978-1-78262-963-4
  23. Waste as a Source of Carbon for Methanol Production
    G Iaquaniello, G Centi, A Salladini, E Palo
    In: Methanol, A Basile, F Dalena Eds. Elsevier 2017, ISBN 978-0-444-63903-5, Ch. 4, pp. 95-111
  24. Methanol Economy: Environment, Demand, and Marketing With a Focus on the Waste-to-Methanol Process
    G Iaquaniello, G Centi, A Salladini, E Palo
    In: Methanol, A Basile, F Dalena Eds. Elsevier 2017, ISBN 978-0-444-63903-5, Ch. 22, pp. 595-612

2017
 
1.  Beyond Solar Fuels: Renewable Energy‐Driven Chemistry
P Lanzafame, S Abate, C Ampelli, C Genovese, R Passalacqua, G Centi, S Perathoner
ChemSusChem 2018, 10 (22), 4409-4419
2. Waste-to-methanol: process and economics assessment
G Iaquaniello, G Centi, A Salladini, E Palo, S Perathoner, L Spadaccini
Bioresource Technology 2017, 243, 611-619
3.  Role of small Cu nanoparticles in the behaviour of nanocarbon-based electrodes for the electrocatalytic reduction of CO2
BC Marepally, C Ampelli, C Genovese, F Tavella, L Veyre, EA Quadrelli, S Perathoner, G Centi
Journal of CO2 Utilization 2017, 21, 534-542
4. Enhanced formation of >C1 products in the electroreduction of CO2 by adding a carbon dioxide adsorption component to a gas diffusion layer‐type catalytic electrode
BC Marepally, C Ampelli, C Genovese, T Saboo, S Perathoner, FM Wisser, L Veyre, J Canivet, EA Quadrelli, G Centi
ChemSusChem 2017, 10 (22), 4442-4446
5.  Room-Temperature Electrocatalytic Synthesis of NH3 from H2O and N2 in a Gas–Liquid–Solid Three-Phase Reactor
S Chen, S Perathoner, C Ampelli, C Mebrahtu, D Su, G Centi
ACS Sustainable Chem & Eng 2017, 5 (8), 7393-7400
6.  Looking at the Future of Chemical Production through the European Roadmap on Science and Technology of Catalysis the EU Effort for a Longterm Vision
S Perathoner, S Gross, EJM Hensen, H Wessel, H Chraye, G Centi
ChemCatChem 2017, 9 (6), 904-909
7.  Engineering of photoanodes based on ordered TiO2-nanotube arrays in solar photo-electrocatalytic (PECa) cells
C Ampelli, F Tavella, S Perathoner, G Centi
Chem Eng Journal 2017, 320, 352-362
8.   Semiconductor, molecular and hybrid systems for photoelectrochemical solar fuel production
R Passalacqua, S Perathoner, G Centi
Journal of Energy Chemistry 2017, 26 (2), 219-240.
9.   Electrocatalytic Synthesis of Ammonia at Room Temperature and Atmospheric Pressure from Water and Nitrogen on a CarbonNanotubeBased Electrocatalyst
S Chen, S Perathoner, C Ampelli, C Mebrahtu, D Su, G Centi
Angewandte Chemie 2017, 129 (10), 2743-2747
10.   Photoactive materials based on semiconducting nanocarbons–A challenge opening new possibilities for photocatalysis
S Perathoner, C Ampelli, S Chen, R Passalacqua, D Su, G Centi
Journal of Energy Chemistry 2017, 26 (2), 207-218.
11.   Analysis of the factors controlling performances of Au-modified TiO 2 nanotube array based photoanode in photo-electrocatalytic (PECa) cells
C Ampelli, F Tavella, C Genovese, S Perathoner, M Favaro, G Centi
Journal of Energy Chemistry 2017, 26 (2), 284-294.
12.   Applied bias photon-to-current conversion efficiency of ZnO enhanced by hybridization with reduced graphene oxide
SBA Hamid, SJ Teh, CW Lai, S Perathoner, G Centi
Journal of Energy Chemistry 2017, 26 (2), 302-308.
13.   Mechanism of C–C bond formation in the electrocatalytic reduction of CO 2 to acetic acid. A challenging reaction to use renewable energy with chemistry
C Genovese, C Ampelli, S Perathoner, G Centi
Green Chemistry 2017, 19, 2406-2415.
14.   Decisive intermediates responsible for the carbonaceous products of CO2 electroreduction on nitrogen doped sp2 nanocarbon catalysts in NaHCO3 aqueous electrolyte
J Xu, B Zhang, B Wang, KH Wu, Z Peng, Q Li, G Centi, DS Su
ChemElectroChem 2017,4 (6), 1274–1278 .
15.   Effect of the structure and mesoporosity in Ni/zeolite catalysts for the hydroisomerization/hydrocracking of nhexadecane
P Lanzafame, S Perathoner, E Heracleous, KS Triantafyllidis, A Lappas, G Centi
ChemCatChem 2017, 9 (9), 1632–1640
16.   Wastetochemicals for a circular economy: the case of urea production (wastetourea)
E Antonetti, G Iaquaniello, A Salladini, L Spadaccini, S Perathoner, G Centi
ChemSusChem 2017, 10(5), 912–920
17.   Chemistry Future: Priorities and Opportunities from the Sustainability Perspective
M Beller, G Centi, L Sun
ChemSusChem 2016, 10(1), 6–13
18.   Cover Picture: Chemistry Future: Priorities and Opportunities from the Sustainability Perspective (ChemSusChem 1/2017)
M Beller, G Centi, L Sun
ChemSusChem 2017, 10 (1), 1-1
19.   Harvesting renewable energy for CO2 catalysis.
A Navarrete, G Centi, A Bogaerts, Á Martín, A York, G Stefanidis
Energy Technology 2017, 5 (6), 796–811
20.  Hierarchically porous Pd/SiO 2 catalyst by combination of miniemulsion polymerisation and sol-gel method for the direct synthesis of H2O2
AF Sierra-Salazar, WSJ Li, M Bathfield, A Ayral, S Abate, T Chave, S I Nikitenko, V Hulea, S Perathoner, P Lacroix-Desmazes
Catalysis Today 2017, DOI: doi.org/10.1016/j.cattod.2016.12.021
 
2016
1.    Engineering of silica-supported platinum catalysts with hierarchical porosity combining latex synthesis, sonochemistry and sol-gel process–I. Material preparation
AFS Salazar, T Chave, A Ayral, SI Nikitenko, V Hulea, PJ Kooyman, F D Tichelaar, S Perathoner, P Lacroix-Desmazes
Microporous and Mesoporous Materials 2016, 234, 207-214
2.     Catalyst Needs and Perspective for Integrating Biorefineries within the Refinery Value Chain
P Lanzafame, S Perathoner, G Centi
Book: Advances in Refining Catalysis, Deniz Uner Ed., CRC Press Pub. (2016), pp. 375-396. ISBN: 978-1-4987-2448-7
3.     A Comparative Catalyst Evaluation for the Selective Oxidative Esterification of Furfural
C Ampelli, G Centi, C Genovese, G Papanikolaou, R Pizzi, S Perathoner, R-J van Putten, KJP Schouten, AC Gluhoi, JC van der Waal
Topics in Catalysis 2016, 59 (17-18), 1659-1667
4.     Membrane Reactors: The Technology StateoftheArt and Future Perspectives
G Iaquaniello, G Centi, M De Falco, A Basile
Book: Membrane Reactor Engineering: Applications for a Greener Process Industry, G. Iaquaniello, G. Centi, M. De Falco, A. Basile Eds., John Wiley & Sons Pub. (2016), pp. 3-21. ISBN: 978-1-118-90680-4
5.     Membrane Reactor Engineering: Applications for a greener process industry
A Basile, M De Falco, G Centi, G Iaquaniello
John Wiley & Sons 2016. ISBN: 978-1-118-90680-4
6.     Pd supported on Carbon Nitride Boosts the Direct Hydrogen Peroxide Synthesis.
R Arrigo, ME Schuster, S Abate, G Giorgianni, G Centi, S Perathoner, S Wrabetz, V Pfeifer, M Antonietti, R Schlögl
ACS Catalysis 2016, 6, 6959–6966
7.     Bimetallische NiFeHydrotalcitKatalysatoren für die effektive Umsetzung von CO2 zu Erdgas
C Mebrahtu, F Krebs, K Simeonov, S Abate, S Perathoner, G Centi, R Palkovits
Chemie Ingenieur Technik 2016, 88 (9), 1261-1261
8.     Synthesis, Characterization, and Activity Pattern of Ni–Al Hydrotalcite Catalysts in CO2 Methanation
S Abate, K Barbera, E Giglio, F Deorsola, S Bensaid, S Perathoner, R Pirone, G Centi
Industrial & Engineering Chemistry Research 2016, 55(30), 8299-8308
9.     Dimethyl ether production from CO2 rich feedstocks in a one-step process: Thermodynamic evaluation and reactor simulation
M De Falco, M Capocelli, G Centi
Chemical Engineering Journal 2016, 294, 400-409
10.   On the nature of the active sites in the selective oxidative esterification of furfural on Au/ZrO 2 catalysts
C Ampelli, K Barbera, G Centi, C Genovese, G Papanikolaou, S Perathoner, KJ Schouten, JK van der Waal
Catalysis Today 2016, 278(1),  56–65
11.   Nanoscale Engineering in the Development of Photoelectrocatalytic Cells for Producing Solar Fuels
C Ampelli, C Genovese, G Centi, R Passalacqua, S Perathoner
Topics in Catalysis 2016, 59(8-9), 757-771
12.   Synergetic effects in novel hydrogenated F-doped TiO2 photocatalysts
EM Samsudin, SBA Hamid, JC Juan, WJ Basirun, G Centi
Applied Surface Science 2016, 370, 380-393
13.   Carbon microspheres preparation, graphitization and surface functionalization for glycerol etherification
L Frusteri, C Cannilla, G Bonura, AL Chuvilin, S Perathoner, G Centi, F Frusteri
Catalysis Today 2016, 277, 68-77
14.   Influence of Zeolite Protective Overlayer on the Performances of Pd Thin Films Membrane on Tubular Asymmetric Alumina Supports
S Abate, U Diaz, A Prieto, S Gentiluomo, M Palomino, S Perathoner, A Corma, G Centi
Industrial & Engineering Chemistry Research 2016, 55 (17), 4948–4959
15.   Revealing the Origin of Activity in NitrogenDoped Nanocarbons towards Electrocatalytic Reduction of Carbon Dioxide
J Xu, Y Kan, R Huang, B Zhang, B Wang, KH Wu, Y Lin, X Sun, Q Li, G Centi, DS Su
ChemSusChem 2016, 9 (10), 1085–1089
16.   Catalytic Performance of γ-Al2O3-ZrO2-TiO2-CeO2 Composite Oxide Supported Ni-based Catalysts for CO2 Methanation
S Abate, C Mebrahtu, E Giglio, F Deorsola, S Bensaid, S Perathoner, R Pirone, G Centi
Industrial & Engineering Chemistry Research 2016, 55 (16), 4451–4460
17.   Synergic effect of tungstophosphoric acid and sonication for rapid synthesis of crystalline nanocellulose
SBA Hamid, SK Zain, R Das, G Centi
Carbohydrate polymers 2016, 138, 349-355
18.   THE NEW SCENARIO FOR SUSTAINABLE CHEMICAL AND ENERGY PRODUCTION: OPPORTUNITIES FOR RESEARCH AND INNOVATION
GC Salvatore Abate, Paola Lanzafame, Siglinda Perathoner
La Chimica e l'Industria 2016, 2, 32-36
19.   Role of size and pretreatment of Pd particles on their behaviour in the direct synthesis of H2O2
S Abate, K Barbera, G Centi, G Giorgianni, S Perathoner
Journal of Energy Chemistry 2016, 297–305
20.   Functional nano-textured titania-coatings with self-cleaning and antireflective properties for photovoltaic surfaces
MG Salvaggio, R Passalacqua, S Abate, S Perathoner, G Centi, M Lanza, A Stassi
Solar Energy 2016, 125, 227-242
21.   Advanced nanostructured titania photoactive materials for sustainable H2 production
G Centi, R Passalacqua, S Perathoner
Materials Science in Semiconductor Processing 2016, 42 (1), 115–121
22.   Turning Perspective in Photoelectrocatalytic Cells for Solar Fuels
S Perathoner, G Centi, D Su
ChemSusChem 2016, 9 (4), 345–357
23.   Electrochemical behaviour of naked sub-nanometre sized copper clusters and effect of CO2
R Passalacqua, S Parathoner, G Centi, A Halder, EC Tyo, B Yang, S Seifert, S Vajda
Catalysis Science & Technology 2016, 6 (18), 6977-6985
24.   Preface to the Special Issue on Nanoconcepts in Energy Chemistry and Catalysis
D Su, G Centi
Journal of Energy 2016, 2, 001
25.   HMF etherification using NH4-exchanged zeolites
K Barbera, P Lanzafame, S Perathoner, G Centi, M Migliori, A Aloise, G Giordano
New Journal of Chemistry 2016, 40, 4300-4306
26.   Disruptive catalysis by zeolites
S Abate, K Barbera, G Centi, P Lanzafame, S Perathoner
Catalysis Science & Technology 2016, 6, 2485–2501
27.  Electrolyte-less design of PEC cells for solar fuels: prospects and open issues in the development of cells and related catalytic electrodes
C Ampelli, G Centi, R Passalacqua, S Perathoner
Catalysis Today 2016, 259, 246-258
28.  Selected papers from the 6th Czech-Italian-Spanish Conference on Molecular Sieves and Catalysis, Amantea, Italy, from June 14th to 17th 2015
G Giordano, L Marchese, S Perathoner
Catalysis Today 2016, 1
2015
 
1.   Electrocatalytic conversion of CO2 to produce solar fuels in electrolyte or electrolyte-less configurations of PEC cells
C Ampelli, C Genovese, BC Marepally, G Papanikolaou, S Perathoner, G Centi
Faraday discussions 2015, 183, 125-145
2.  High-throughput screening of heterogeneous catalysts for the conversion of furfural to bio-based fuel components
R Pizzi, RJ van Putten, H Brust, S Perathoner, G Centi, JC van der Waal
Catalysts 2015, 5 (4), 2244-2257
3.  Chemical Energy Conversion as Enabling Factor to Move to a Renewable Energy Economy
S Abate, G Centi, S Perathoner
Green 2015, 5 (1-6), 43–54
4.   Enhancement of the intrinsic photocatalytic activity of TiO2 in the degradation of 1, 3, 5-triazine herbicides by doping with N, F
EM Samsudin, SBA Hamid, JC Juan, WJ Basirun, G Centi
Chemical Engineering Journal 2015, 280, 330-343
5.     Enhanced Hydrogen Transport over Palladium Ultrathin Films through Surface Nanostructure Engineering
S Abate, G Giorgianni, S Gentiluomo, G Centi, S Perathoner
ChemSusChem 2015, 8 (22), 3805-3814
6.     The role of acid sites induced by defects in the etherification of HMF on Silicalite-1 catalysts
P Lanzafame, K Barbera, S Perathoner, G Centi, A Aloise, M Migliori, A Macario, JB Nagy, G Giordano
Journal of Catalysis 2015, 330, 558-568
7.     The energy-chemistry nexus: A vision of the future from sustainability perspective
S Abate, G Centi, P Lanzafame, S Perathoner
Journal of Energy Chemistry 2015, 24 (5), 535-547
8.     OnionLike Graphene Carbon Nanospheres as Stable Catalysts for Carbon Monoxide and Methane Chlorination
G Centi, K Barbera, S Perathoner, NK Gupta, EE Ember, JA Lercher
ChemCatChem 2015, 7 (18), 3036-3046
9.     New Sustainable Model of Biorefineries: Biofactories and Challenges of Integrating Bioand Solar Refineries
S Abate, P Lanzafame, S Perathoner, G Centi
ChemSusChem 2015, 8 (17), 2854-2866
10.   Solar production of fuels from water and CO2: perspectives and opportunities for a sustainable use of renewable energy
R Passalacqua, G Centi, S Perathoner
Oil & Gas Science and Technology–Revue d’IFP Energies nouvelles 2015, 70 (5), 799-815
11.   Monitoring of glucose in fermentation processes by using Au/TiO2 composites as novel modified electrodes
C Ampelli, SG Leonardi, C Genovese, P Lanzafame, S Perathoner, G Centi, G Neri
Journal of Applied Electrochemistry 2015, 45 (9), 943-951
12.   CO2 capture and reduction to liquid fuels in a novel electrochemical setup by using metal-doped conjugated microporous polymers
C Ampelli, C Genovese, M Errahali, G Gatti, L Marchese, S Perathoner, G Centi
Journal of Applied Electrochemistry 2015, 45 (7), 701-713
13.   Energy-related catalysis
S Abate, G Centi, S Perathoner
National Science Review 2015, 2 (2), 143-145
14.   Status of Research and Challenges in Converting Natural Gas
S Abate, G Centi, S Perathoner
Book: Small-Scale Gas to Liquid Fuel Synthesis, N. Kanellopoulos Ed., CRC Press (2015), pp. 3-50. ISBN: 978-1-4665-9938-3
15.   The role of oxide location in HMF etherification with ethanol over sulfated ZrO2 supported on SBA-15
K Barbera, P Lanzafame, A Pistone, S Millesi, G Malandrino, A Gulino, S Perathoner, G Centi
Journal of Catalysis 2015, 323, 19-32
16.   CO2 utilization: an enabling element to move to a resource-and energy-efficient chemical and fuel production
C Ampelli, S Perathoner, G Centi
Phil.Trans. Royal Society of London A 2015, 373(2037), 20140177
17.   Membrane-Assisted CPO: A New Sustainable Syngas Process
G Iaquaniello, A Salladini, E Palo, S Abate, G Centi
Book: Small-Scale Gas to Liquid Fuel Synthesis, N. Kanellopoulos Ed., CRC Press (2015), pp .515–530. ISBN: 978-1-4665-9938-3
18.   Catalytic Partial Oxidation Coupled with Membrane Purification to Improve Resource and Energy Efficiency in Syngas Production
G Iaquaniello, A Salladini, E Palo, G Centi
ChemSusChem 2015, 8 (4), 717–725
19.   Direct Conversion of Methane: Searching for the “Holy Grail”
G Centi
ChemSusChem 2015, 8 (2), 212–216
20.   Preface to Special Issue: Congratulations on Changes of JEC
X Bao, G Centi
Journal of Energy 2015, 5, 001
21.   Reduction of greenhouse gas emissions by catalytic processes
G Centi, S Perathoner
Handbook of Climate Change Mitigation and Adaptation, Springer New York 2015, pp. 1-43
 

Catalysis and Sustainable Processes
G. Centi and S. Perathoner
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