PUBLICATIONS

Offshore Hydrogen Production via the PEM Electrolyser Coupled With the Reverse Osmosis System
Siavash Asiaban et al. (2025), IEEEAccess 13. p.161685-161708. http://doi.org/10.1109/access.2025.3608297
Impact of Temperature, Membrane Type, and Process Parameters in Seawater Acidification Using Bipolar Membrane Electrodialysis.
Gutierrez, Leo et al. (2025) ACS Sustainable Resource Management. 2, 6, 1039–1048 https://doi.org/10.1021/acssusresmgt.5c00074
Development of a dynamic mathematical model of PEM electrolyser for integration into large-scale power systems
Siavash Asiaban et al. (2024) ENERGY CONVERSION AND MANAGEMENT-X. 23. http://doi.org/10.1016/j.ecmx.2024.100610
Gas–liquid and liquid–liquid vortex technology for process intensification.
Afroditi Kouro et al. (2024) Current Opinion in Chemical Engineering 46 (2024): 101056. http://doi.org/10.1016/j.coche.2024.101056
Role of base in CO₂ hydrogenation to formate over a Ru(III) solid micellar catalyst
De Brito Mendes, C. et al. (2025), Catalysis Science & Technology. 15(18). p.5327-5334. http://doi.org/10.1039/d5cy00662g
Direct air capture: novel contactor designs and intensification strategies
Afroditi Kouro et al. (2025) CURRENT OPINION IN CHEMICAL ENGINEERING. 50.http://doi.org/10.1016/j.coche.2025.101199
Towards seawater electrolysis in alkaline media: assessing the role of hypochlorite formation
R. Delmelle et al. (2025), Journal of the Electrochemical Society, submitted
Understanding the Electrocatalytic Interface: A Review of Advances in CO2ER Mechanisms and Materials
Zirwa Noor et al. (2025) ACS Energy & Fuels. https://doi.org/10.1021/acs.energyfuels.5c03429.
Acidification of natural waters by bipolar membrane electrodialysis: impact of composition on acidification kinetics and energy consumption
Steeven J. et al (2025) Carbon Capture Science & Technology (under Review)
Conceptual Process Design and Technoeconomic Analysis of an e-Methanol Plant with Direct Air-Captured CO2 and Electrolytic H2
Fabio Cameli et al. ACS Energy & Fuels 38 (2024) 3251-3261. http://doi.org/10.1021/acs.energyfuels.3c04147
Electrification pathways for sustainable syngas production: A comparative analysis for low-temperature Fischer-Tropsch technology
Afroditi Kourou et al. (2024) International Journal of Hydrogen Energy. 81. 974-985.
Electrification of steam cracking as a pathway to reduce the impact of the petrochemical industry on climate change
Oleksii Mynko et al. (2023) Journal of Cleaner Production. 427. 139208.http://doi.org/10.1016/j.jclepro.2023.139208
Conceptual process design and technoeconomic analysis of an e-ammonia plant: GreenH2 and cryogenic air separation coupled with Haber-Bosch process
Fabio Cameli et al. (2024), International Journal Of Hydrogen Energy. 49; pp. 1416 – 1425. http://doi.org/10.1039/d5cy00662g
CONFERENCE PRESENTATIONS/PROCEEDINGS
Exploring the reactivity of a solid micellar (SOMIC) catalyst, De Brito Mendes, C. et al. (2025), 10th Asia-Pacific Congress on Catalysis (APCAT-10) in conjunction with the 4th International Symposium on Single-Atom Catalysis (ISSAC-4), Abstracts.
Process Intensification of CO2 Capture in a Gas-Liquid Vortex Reactor, Afroditi Kourou et al. AIChE Annual Meeting. AIChE, 2024.
Process Intensification of Solid-Based Direct Air Capture with a Novel Vortex Contactor, Afroditi Kourou et al. 15th European Congress of Chemical Engineering (ECCE), Abstracts. (ECCE15), 2025.
Enhancing Direct Air Capture with a Novel Stator–Rotor Vortex Chamber. Afroditi Kourou et al. Process Intensification, 9th European conference, Abstracts. EPIC9, 2025.
Enhancing CO₂ Reduction Efficiency in Solid Oxide Electrolysis Cells (SOEC): Insights into Selectivity and Faradaic Performance, Erum Pervaiz et al. (2025) 13th International Conference on Chemical Kinetics (ICCK) 8-13th June 2025, Tahoe, CA (Oral Presentation)
Impact Of Temperature, Membrane Type, And Process Parameters In Seawater Acidification Using Bipolar Membrane Electrodialysis, Gutierrez, Leo et al. IWA Membrane Technology Conference, 14 - 18 September 2025 in Daegu, South Korea (Oral Presentation)
Effect of water quality on alkaline water electrolysis performance, N. Wauthy et al. 4th International Conference on Electrolysis (ICE), Sun City, South Africa, p.148 (2023).
Towards seawater electrolysis in alkaline media: assessing the impact of hypochlorite, N. Wauthy et al. 5th International Conference on Water Electrolysis (ICE), Freiburg, Abstract #135 (2025)
Towards seawater electrolysis in alkaline media, N Wauthy et al. (2024) European PhD Hydrogen Conference (EPHyC 2024)
Model development of gas-liquid vortex reactor for process intensification of CO2 capture, Afroditi Kourou et al. CAMURE 12 & ISMR 11, 12th International Symposium on Catalysis in Multiphase Reactors & 11th International Symposium on Multifunctional Reactors, Proceedings (2024).
Production of green molecules at sea using the concept of energy island, Siavash Asiaban et al. European PhD Hydrogen Conference (EPHyC) 2024 : Book of abstracts. p.537-539
POSTERS

PUBLICATIONS

Offshore Hydrogen Production via the PEM Electrolyser Coupled With the Reverse Osmosis System

Siavash Asiaban et al. (2025), IEEEAccess 13. p.161685-161708. http://doi.org/10.1109/access.2025.3608297

Impact of Temperature, Membrane Type, and Process Parameters in Seawater Acidification Using Bipolar Membrane Electrodialysis.

Gutierrez, Leo et al. (2025) ACS Sustainable Resource Management. 2, 6, 1039–1048 https://doi.org/10.1021/acssusresmgt.5c00074

Development of a dynamic mathematical model of PEM electrolyser for integration into large-scale power systems

Siavash Asiaban et al. (2024) ENERGY CONVERSION AND MANAGEMENT-X. 23. http://doi.org/10.1016/j.ecmx.2024.100610

Gas–liquid and liquid–liquid vortex technology for process intensification.

Afroditi Kouro et al. (2024) Current Opinion in Chemical Engineering 46 (2024): 101056. http://doi.org/10.1016/j.coche.2024.101056

Role of base in CO₂ hydrogenation to formate over a Ru(III) solid micellar catalyst

De Brito Mendes, C. et al. (2025), Catalysis Science & Technology. 15(18). p.5327-5334. http://doi.org/10.1039/d5cy00662g

Direct air capture: novel contactor designs and intensification strategies

Afroditi Kouro et al. (2025) CURRENT OPINION IN CHEMICAL ENGINEERING. 50.http://doi.org/10.1016/j.coche.2025.101199

Towards seawater electrolysis in alkaline media: assessing the role of hypochlorite formation

R. Delmelle et al. (2025), Journal of the Electrochemical Society, submitted

Understanding the Electrocatalytic Interface: A Review of Advances in CO2ER Mechanisms and Materials

Zirwa Noor et al. (2025) ACS Energy & Fuels. https://doi.org/10.1021/acs.energyfuels.5c03429.

Acidification of natural waters by bipolar membrane electrodialysis: impact of composition on acidification kinetics and energy consumption

Steeven J. et al (2025) Carbon Capture Science & Technology (under Review)

Conceptual Process Design and Technoeconomic Analysis of an e-Methanol Plant with Direct Air-Captured CO2 and Electrolytic H2

Fabio Cameli et al. ACS Energy & Fuels 38 (2024) 3251-3261. http://doi.org/10.1021/acs.energyfuels.3c04147

Electrification pathways for sustainable syngas production: A comparative analysis for low-temperature Fischer-Tropsch technology

Afroditi Kourou et al. (2024) International Journal of Hydrogen Energy. 81. 974-985.

Electrification of steam cracking as a pathway to reduce the impact of the petrochemical industry on climate change

Oleksii Mynko et al. (2023) Journal of Cleaner Production. 427. 139208.http://doi.org/10.1016/j.jclepro.2023.139208

Conceptual process design and technoeconomic analysis of an e-ammonia plant: GreenH2 and cryogenic air separation coupled with Haber-Bosch process

Fabio Cameli et al. (2024), International Journal Of Hydrogen Energy. 49; pp. 1416 – 1425. http://doi.org/10.1039/d5cy00662g

CONFERENCE PRESENTATIONS/PROCEEDINGS

Exploring the reactivity of a solid micellar (SOMIC) catalyst, De Brito Mendes, C. et al. (2025), 10th Asia-Pacific Congress on Catalysis (APCAT-10) in conjunction with the 4th International Symposium on Single-Atom Catalysis (ISSAC-4), Abstracts.

Process Intensification of CO2 Capture in a Gas-Liquid Vortex Reactor, Afroditi Kourou et al. AIChE Annual Meeting. AIChE, 2024.

Process Intensification of Solid-Based Direct Air Capture with a Novel Vortex Contactor, Afroditi Kourou et al. 15th European Congress of Chemical Engineering (ECCE), Abstracts. (ECCE15), 2025.

Enhancing Direct Air Capture with a Novel Stator–Rotor Vortex Chamber. Afroditi Kourou et al. Process Intensification, 9th European conference, Abstracts. EPIC9, 2025.

Enhancing CO₂ Reduction Efficiency in Solid Oxide Electrolysis Cells (SOEC): Insights into Selectivity and Faradaic Performance, Erum Pervaiz et al. (2025) 13th International Conference on Chemical Kinetics (ICCK) 8-13th June 2025, Tahoe, CA (Oral Presentation)

Impact Of Temperature, Membrane Type, And Process Parameters In Seawater Acidification Using Bipolar Membrane Electrodialysis, Gutierrez, Leo et al. IWA Membrane Technology Conference, 14 - 18 September 2025 in Daegu, South Korea (Oral Presentation)

Effect of water quality on alkaline water electrolysis performance, N. Wauthy et al. 4th International Conference on Electrolysis (ICE), Sun City, South Africa, p.148 (2023).

Towards seawater electrolysis in alkaline media: assessing the impact of hypochlorite, N. Wauthy et al. 5th International Conference on Water Electrolysis (ICE), Freiburg, Abstract #135 (2025)

Towards seawater electrolysis in alkaline media, N Wauthy et al. (2024) European PhD Hydrogen Conference (EPHyC 2024)

Model development of gas-liquid vortex reactor for process intensification of CO2 capture, Afroditi Kourou et al. CAMURE 12 & ISMR 11, 12th International Symposium on Catalysis in Multiphase Reactors & 11th International Symposium on Multifunctional Reactors, Proceedings (2024).

Production of green molecules at sea using the concept of energy island, Siavash Asiaban et al. European PhD Hydrogen Conference (EPHyC) 2024 : Book of abstracts. p.537-539

POSTERS