Solar syngas streamed from photonic-enhanced perovskite photovoltaics: paving the way for market deployment

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-PF-EFID: 101148726
EC Contribution
€1,568
Consortium Size
2 orgs
Start Year
2024
Summary

In the face of the escalating environmental challenges, the transition to renewable energies has emerged as a critical and pressing necessity for a sustainable future. Installation of photovoltaic panels is one way to contribute to the decarbonization, but currently there is only one cost-effective technology available for commercial applications - silicon. Perovskite Solar Cells (PSC) have emerged recently as a very promising alternative, but some issues like poor stability and the use of an evaporated metallic back-contact are still hindering its way through industrialization. A promising holistic solution is to replace the metallic back-contact by a highly conductive carbon material. The challenge now is to match the efficiency obtained by the metal back-contact, by maximizing the carbon materials conductivity, enhancing the interfacial contact or increasing the photon absorption. Regarding the latter issue, light trapping structures are a promising solution since they already proved successful at maximizing the current generation in silicon solar cells. Furthermore, large-scale deposition methods must be adopted to develop a realistic experimental procedure compatible with large-scale production, and the encapsulation must be optimized to maximize the life time of the solar module. Still, the intermittency nature of solar energy might create a mismatch between energy production and consumption. An effective solution is to convert the excess energy into syngas (mixture of CO and H2) by co-electrolysis of CO2 and water. This gas can then be converted into a synthetic fuel and replace the fossil fuels derivatives, contributing for the EUs goal of achieving net-zero carbon-emission by 2050. The optimization of the solar-to-syngas system can be complex due to the extend of dependent processes in series, and thus a computing simulation is a strong tool for predicting the operation and maximizing the energy efficiency of the entire process.

Consortium (2)

Project Results (4)

Source: CORDIS, the EU research results database.

Publications (3)
Multi-scale solar-to-hydrogen system design: An open-source modeling framework
Solar Energy· 2025DOI
Cristina Teixeira, Miguel Alexandre, Leonardo Rodrigues, António T. Vicente, Ana S. Reis-Machado, Cristina B. Correia, Cristiano P. Ramos, Adélio Mendes, Rodrigo Martins, Manuel J. Mendes
Next‐Generation Solar‐Powering: Photonic Strategies for Earth and Space Systems
Solar RRL· 2025DOI
Ivan M. Santos, Miguel Alexandre, António T. Vicente, Cristina Teixeira, Eva Almeida, Elvira Fortunato, Rodrigo Martins, Hugo Águas, Manuel J. Mendes
Data Management Plan
Deliverables (1)
Data Management Plan