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Completed HORIZON European Commission

Photoelectrochemical Oxidation of Methane using Single Atom Catalysts


Funder European Commission
Recipient Organization Fundacio Privada Institut Catala D'Investigacio Quimica
Country Spain
Start Date Dec 01, 2023
End Date Nov 30, 2025
Duration 730 days
Number of Grantees 1
Roles Coordinator
Data Source European Commission
Grant ID 101105451
Grant Description

Natural gas (primarily methane, CH4) is still a major energy source that is often simply flared into the atmosphere without being harnessed. As a cumulative result, unprecedented CH4 spikes have been reported lately in Earths atmosphere.

Combined with the already existing Global warming concerns posed by other greenhouse gases such as CO2, CO, NOx, etc., CH4 abundance will lead to a worldwide catastrophe.

Various attempts to convert and utilize CH4 into useful chemicals in mild reaction conditions have only seen limited success.

In this proposal, we aim to target the CH4 molecule by fixing the CO2 molecule to produce acetic acid [CH3COOH, a high-value industrial chemical - the global acetic acid market attained a value of over 8.7 billion EUR in 2020 and is expected to grow at a compound annual growth rate (CAGR) of 5.5% from 2022 to 2027] via Photoelectrochemistry (PEC, using light and electricity) employing a new generation of heterogeneous catalysts called Single Atom Catalysts (SACs, containing abundantly available single transition metal atom embedded on transition metal oxide semiconductors that can rival catalytic efficacy of a well-defined homogeneous catalyst).

To achieve this goal, we will mainly study (1) different band-energies of SACs using optical and electrochemical methods; (2) select and examine appropriate SACs with band energies that can enable CH4 oxidation and CO2 reduction; (3) examine their selectivity, efficiency, and recyclability through catalyst and reaction optimizations; (4) characterize the best performing SACs and (5) decipher the reaction mechanism with the aid of computational methods.

We will disseminate the results through papers, conference presentations, public outreach events, social media, etc., while gaining several scientific and transferable skills required for career progress.

A new pathway towards methane valorization is foreseen through this project, which can be highly attractive in an academic and industrial setting.

All Grantees

Fundacio Privada Institut Catala D'Investigacio Quimica

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