Artificial PHOTOsynthesis to produce FUELs and chemicals: hybrid systems with microorganisms for improved light harvesting and CO2 reduction

Informazioni relative al progetto

Photo2Fuel

ID dell’accordo di sovvenzione: 101069357

DOI

10.3030/101069357

Progetto chiuso

Data della firma CE 18 Maggio 2022

Data di avvio 1 Settembre 2022

Data di completamento 31 Agosto 2025

Finanziato da

Climate, Energy and Mobility

Costo totale

€ 2 493 171,25

Contributo UE

€ 2 493 171,00

2 493 171,00

0,25

Coordinato da

IDENER RESEARCH & DEVELOPMENT AIE
Spain

CORDIS fornisce collegamenti ai risultati finali pubblici e alle pubblicazioni dei progetti ORIZZONTE.

I link ai risultati e alle pubblicazioni dei progetti del 7° PQ, così come i link ad alcuni tipi di risultati specifici come dataset e software, sono recuperati dinamicamente da .OpenAIRE .

Risultati finali

Final report of the hybrid devices: testing, characterisation, and efficiency

This deliverable will contain the final report of the hybrid devices. It will include the testing, characterisation, and efficiency results of the experiments.

Results of the auto sufficient mini-solar plant for fuels/chemicals production

This deliverable will include the results of the auto sufficient mini-solar plant for fuels/chemicals production.

Experimental design of the hybrid systems

This deliverable contains the experimental design of the hybrid systems: organic photosensitisers and bacterias. It will contain the amount of experiments to be conducted and parameters to be analysed in them.

Results of a final complete simulation

This deliverable will include the results of a final complete simulation of the Photo2Fuel technology at lab scale.

Report containing the process models for the hybrid systems

This deliverable will contain the process models for the basic modelling of the hybrid systems. This process models will serve as basis for the sustainability assessment of the models.

Assembly of the selected device

This deliverable will contain information regarding the assembly of the selected hybrid system for upscaling at photo-micro reactor level.

Optimisation of Photo2Fuel technology: next steps

This deliverable will include the next steps to be followed for the optimisation of Photo2Fuel technology based on the results of the sustainability assessments.

Selection of the final device

This deliverable will contain the results of the MDO problem and according to it, the hybrid device that will be upscaled.

Project Website

This deliverable will be the Photo2Fuel website with relevant information for the project, such as the consortium composition, the main project idea and the public deliverables.

Project video

This deliverable will be the Project video for communication/dissemination of the project's results.

Simulation tool of Photo2Fuel technology at large scale

This deliverable will include the complete simulation tool of Photo2Fuel technology at large scale.

Photo2Fuel DSS tool

This deliverable will include the Photo2Fuel DSS tool that will be available in the project's website. It will be searchable on parameters including “product”, “costs”, “size”, “location”, “negative emissions” to support stakeholders deciding if Photo2Fuel technology fits them.

Pubblicazioni

Win–Win More Sustainable Routes for Acetic Acid Synthesis

Autori: Juan D. Medrano-García, Raul Calvo-Serrano, Haining Tian, Gonzalo Guillén-Gosálbez
Pubblicato in: ACS Sustainable Chemistry & Engineering, Numero 13, 2025, ISSN 2168-0485
Editore: American Chemical Society (ACS)
DOI: 10.1021/ACSSUSCHEMENG.4C07324

Interaction of light with gas–liquid interfaces: influence on photon absorption in continuous-flow photoreactors

Autori: Jasper H. A. Schuurmans, Stefan D. A. Zondag, Arnab Chaudhuri, Miguel Claros, John van der Schaaf, Timothy Noël
Pubblicato in: Reaction Chemistry & Engineering, Numero 10, 2025, ISSN 2058-9883
Editore: Royal Society of Chemistry (RSC)
DOI: 10.1039/D4RE00540F

Light-assisted carbon dioxide reduction in an automated photoreactor system coupled to carbonylation chemistry

Autori: Jasper H. A. Schuurmans, Tom M. Masson, Stefan D. A. Zondag, Simone Pilon, Nicola Bragato, Miguel Claros, Tim den Hartog, Francesc Sastre, Jonathan van den Ham, Pascal Buskens, Giulia Fiorani, Timothy Noël
Pubblicato in: Chemical Science, Numero 15, 2024, ISSN 2041-6520
Editore: Royal Society of Chemistry (RSC)
DOI: 10.1039/d4sc06660j

Photobiocatalytic CO<sub>2</sub> reduction into CO by organic nanorod-carbon monoxide dehydrogenase assemblies: surfactant matters

Autori: Mariia V. Pavliuk, Maximilian Böhm, Janna Wilhelmsen, Steffen Hardt, Henrik Land, Haining Tian
Pubblicato in: Chemical Science, Numero 15, 2024, ISSN 2041-6520
Editore: Royal Society of Chemistry (RSC)
DOI: 10.1039/D4SC03154G

Recovery and purification of acetic acid from extremely diluted solutions using a mixed bed ion exchange resin – technical feasibility

Autori: Tomás Roncal, Ainhoa Aguirre, Yolanda Belaustegui, Elisabet Andrés
Pubblicato in: RSC Advances, Numero 15, 2025, ISSN 2046-2069
Editore: Royal Society of Chemistry (RSC)
DOI: 10.1039/D4RA08341E

A field guide to flow chemistry for synthetic organic chemists

Autori: Luca Capaldo, Zhenghui Wen, Timothy Noël
Pubblicato in: Chemical science, Numero 16, 2023, ISSN 2041-6539
Editore: Royal society of Chemistry
DOI: 10.1039/D3SC00992K

Design and application of a decatungstate-based ionic liquid photocatalyst for sustainable hydrogen atom transfer reactions

Autori: Claros Casielles, Miguel; Quévarec, Julian; Fernández-García, Sara; Noel, Timothy
Pubblicato in: Green Chemistry, Numero 25, 2025, ISSN 1463-9270
Editore: Royal Society of Chemistry
DOI: 10.1039/D5GC02160J

Artificial photosynthesis to produce fuels and chemicals

Autori: Tomás Roncal; Estefanía Estalayo; Laura Sánchez-Cupido; Yolanda Belaustegui
Pubblicato in: 2023
Editore: Zenodo
DOI: 10.5281/ZENODO.8082299

Photobiocatalytic CO2 Reduction into CO by Organic Nanoparticle-Carbon Monoxide Dehydrogenase Assemblies: Surfactant Matters

Autori: MV Pavliuk, M Böhm, J Wilhelmsen, H Land, H Tian
Pubblicato in: 2023, ISSN 2573-2293
Editore: ChemRxiv
DOI: 10.26434/chemrxiv-2023-cnqbr

Evaluating Sustainability: Enhacing Artificial Photosynthesis with Hybrid Microorganism Systems for Superior Light Harvesting and CO2 Reduction

Autori: Luis David Servian Rivas, Vanessa Ferreira de Almeida, Carlos Sanchez Garcia, Francisco Lopez Guirao, Maria Tripiana Serrano, Alejandro J. Del Real, Juan Diego Medrano-García, Gonzalo Guillén-Gosalb
Pubblicato in: 2024
Editore: Zenodo
DOI: 10.5281/ZENODO.12798678

Artificial photosynthesis to produce fuels and chemicals - hybrid systems with microorganism for improved light harvesting and CO2 reduction

Autori: De Almeida, Vanessa Ferreira; De La Cruz Perez, Carlos; Rivas, Luis David Servián; Serrano, Maria Tripiana; Real, Alejandro J. Del
Pubblicato in: 2023
Editore: Zenodo
DOI: 10.5281/ZENODO.8095050

Simple models to accurately reproduce CO2 recycling into acetic acid through Moorella Thermoacetica

Autori: Sabadell-Rendón, Albert; López Guirao, Francisco; González Brincau, Alejandro; Ferreira, Vanessa; Pavliuk, Mariia V.; Bieringer, Maria; Tian, Haining
Pubblicato in: 2025
Editore: Zenodo
DOI: 10.5281/ZENODO.15640311

Sustainability assessment to guide the development of new technologies: acetic acid from captured CO 2 case study

Autori: Medrano-García, Juan D.; Calvo Serrano, Raul; Tian, Haining; Guillén-Gosálbez, Gonzalo
Pubblicato in: 2025
Editore: Zenodo
DOI: 10.5281/ZENODO.15351440

Sustainable Development Goals Assessment of Alternative Acetic Acid Synthesis Routes

Autori: Medrano-García, Juan D.; Jog, Sachin; Nabera, Abhinandan; Guillén-Gosálbez, Gonzalo
Pubblicato in: Systems and Control Transactions, 2025
Editore: PSE PRESS
DOI: 10.69997/SCT.175813

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Risultati finali

Pubblicazioni

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