SOLCO2CHEM

Responsable du projet

Valérie KELLER

vkeller@unistra.fr

 

Laboratoires

This project focuses on (solar)-light driven photoreduction of CO to ethylene, using Cu-based catalysts, aiming at the same time to mitigate CO2 emissions, and produce rich chemicals using exclusively solar photons. As known, the formation of C2H4 involves a complex twelve-electron transfer and multiple proton-coupled steps, resulting in low selectivity and competing reactions. So far, Cu-based materials are promising (electro- and thermo-)catalysts for CO2 reduction, however solar-driven photocatalytic reduction routes are still scarcely studied. Cu-catalysts uniquely enable both CO activation and C–C coupling, but their efficiency is limited by the instability of Cu/Cu/Cu² active species onto the photo-active support to both prevent deactivation and ensure high product selectivity.

To achieve this, the project explores mesostructured Cu/CeO2-TiO photocatalysts, enabling CO2 adsorption/activation, improved dispersion and stabilization of Cu active species, efficient charge carrier separation, and visible-light harvesting. It will contribute to developing efficient, stable, and cost-effective photocatalytic systems for solar-driven CO conversion into C2H4, using only solar energy as low carbon-emission process.

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