-N. Esercizio , M. Lanzilli, M. Vastano, Z. Xu, S. Landi, L. Caso, C. Gallo, G. Nuzzo, E. Manzo, A. Fontana and G. d'Ippolito (2021):Improvement of CO2 and Acetate Coupling into Lactic Acid by Genetic Manipulation of the Hyperthermophilic Bacterium Thermotoga neapolitana in Microorganisms 2021, 9(8)

-N. Esercizio , M. Lanzilli, M. Vastano, Z. Xu, S. Landi, L. Caso, C. Gallo, G. Nuzzo, E. Manzo, A. Fontana and G. d'Ippolito (2021): Fermentation of Biodegradable Organic Waste by the Family Thermotogaceae published in Recources Volume 10 Issue 4 (2021) DOI:10.3390/resources10040034

-M. Lanzilli; N. Esercizio; M. Vastano; Zhaohui Xu; G. Nuzzo; C. Gallo; E. Manzo; A. Fontana; G. d'Ippolito (2021): Effect of Cultivation Parameters on Fermentation and Hydrogen Production in the Phylum Thermotogae in International Journal of Molecular Science 22 (1)

-Dessì, P, Rovira-Alsina, L., Sánchez, C., Kumaravel, Dinesh, G., Tong, W., Chatterjee. P., Tedesco, M., Farràs, P., Hamelers, H.M.V. and Puig, S. (2021): Microbial electrosynthesis: Towards sustainable biorefineries for production of green chemicals from CO2 emissions in Biotechnology Advances, 46, 107675

-Perona-Vico, E., Feliu-Paradeda, L., Puig, S, Bañeras, L. (2021):Bacteria coated biocathodes as in-situ hydrogen evolving platform in 5th European Meeting of the International Society for Microbial Electrochemistry and Technology (EU-ISMET)

-M. Sjöbloma, I. Antonopoulou, I. Gil Jiménez, A. de Oliveira Maciel, S. G. Khokarale, J. Mikkola, U. Rova, P. Christakopoulos (2020):Enzyme-assisted CO2 absorption in aqueous amino acid ionic liquid amine blends. DOI:10.5281/zenodo.4436019

-M. Lanzilli, N. Esercizio, M.Vastano, Z. Xu, G. Nuzzo, C. Gallo, E. Manzo, A.Fontana and G. d’Ippolito (2020): Effect of Cultivation Parameters on Fermentation and Hydrogen Production in the Phylum Thermotogae. DOI:10.3390/ijms22010341

-E. Perona-Vico; L. Feliu-Paradera; S. Puig; L. Bañeras (2020):Bacteria coated cathodes as an in-situ hydrogen evolving platform for microbial electrosynthesis, DOI:10.1038/s41598-020-76694-y

-L. Rovira-Alsina; E. Perona-Vico; L. Baneras; J. Colprim; M.D. Balaguer; S. Puig (2020): Thermophilic bio-electro CO2 recycling into organic compounds, DOI:10.1039/d0gc00320d

-W. Van Hecke; R. Bockrath; H. De Wever (2019): Effects of moderately elevated pressure on gas fermentation processes, DOI: 10.1016/j.biortech.2019.122129

-V. Luongo; A. Palma; E. R. Rene; A. Fontana; F. Pirozzi; G. Espositio; P. N.L. Lens (2018): Lactic acid recovery from a model of Thermotoga neapolitana fermentation broth using ion exchange resins in batch and fixed-bed reactors, DOI:10.1080/01496395.2018.1520727

-G. Dreschke, G. d’Ippolito, A. Panico, P. N.L. Lens, G. Esposito, A. Fontana (2018):Enhancement of hydrogen production rate by high biomass concentrations of Thermotoga neapolitana, DOI: 10.5281/zenodo.3247830

-G. Nuzzo; S. Landi; E. Nunzia; E. Manzo; A. Fontana; G. d'Ippolito (2019): Capnophilic Lactic Fermentation from Thermotoga neapolitana: A Resourceful Pathway to Obtain Almost Enantiopure L-lactic Acid, DOI: 10.3390/fermentation5020034

-N. Pradhan; G. d'Ippolito; L. Dipasquale; G. Esposito; A. Panico; P.N.L. Lens; A. Fontana (2019): Simultaneous synthesis of lactic acid and hydrogen from sugars via capnophilic lactic fermentation by Thermotoga neapolitana cf capnolactica, DOI: 10.5281/zenodo.3247821

Public Deliverables

I. Antonopoulou; U. Rova; P. Christakopoulos (2020): D2.4 - Packed-bed reactor using amine-ionic liquid -immobilized CAs blends for optimal capture of CO2 from off gas, DOI: 10.5281/zenodo.4420806

Project Presentations

-J.L. Dubois (2021): CO2 gas fermentation opportunities and technical challenges, DOI: 10.5281/zenodo.5499571

-H. de Wever et. al (2020): General presentation on the progress of theBioRECO2VER project (Jan. 2018–March 2020), DOI: 10.5281/zenodo.3734790

-L. Rovira-Alsina; E. Verona-Vico; L. Baneras, J. Colprim; M.D. Balaguer, S. Puig (2019): Thermophilic Co2 bio-electro recycling for continuous acetate production, DOI: 10.5281/zenodo.3522699

-M. López Abelairas (2019): Biological routes for CO2 conversion into Chemical Building Blocks , DOI: 10.5281/zenodo.3529297

-I. Rybkowska (2019): CCU technologies for conventional fuels production (reduction of CO2 emissions) or chemical products manufacture (reduction of CO2 02 emissions from the „stack”) DOI: 10.5281/zenodo.3571880