Skip to main content
European Commission logo
polski polski
CORDIS - Wyniki badań wspieranych przez UE
CORDIS
CORDIS Web 30th anniversary CORDIS Web 30th anniversary

Biphasic Plasmonic Photoelectrocatalytic CO2 Reduction: electrochemically controlling plasmonic photo-charging of metallic nanofilms at immiscible liquid|liquid interfaces towards CO2 reduction

Opis projektu

Nowe metody umożliwiają precyzyjną kontrolę przetwarzania CO2 w paliwa

Zespół finansowanego w ramach działania „Maria Skłodowska-Curie” projektu CO2PhotoElcat chce opracować nowatorskie podejście do elektrochemicznej redukcji CO2 do paliw syntetycznych. Prace w ramach projektu połączą nowatorskie metody samodzielnego grupowania nanocząsteczek w metaliczne nanofilmy na granicach faz płynów z elektrochemicznymi metodami kontroli transferu jonów i elektronów na granicy faz ciecz-ciecz, a także z technikami spektroskopii, które pozwolą na badania powierzchni pod napięciem. Zaproponowane przez badaczy metody mogą przyczynić się do zwiększenia stopnia kontroli elektrochemicznej nad mechanizmem plazmonicznego ładowania międzyfazowych nanofilmów metalicznych.

Cel

Conversion of CO2 to synthetic fuels is essential for climate-change mitigation and renewable energy production. This project will develop a novel, disruptive and sustainable approach to the photoelectrocatalytic CO2 reduction reaction (CO2RR). The interdisciplinary methodology will combine breakthrough approaches to self-assemble nanoparticles into metallic nanofilms at fluidic interfaces, with electrochemical control of ion and electron transfer at an immiscible liquid|liquid (L|L) interface, and custom in situ UV/vis and Raman setups to probe the electrified L|L interface. The major innovation will be unprecedented electrochemical-control of the degree of plasmonic photo-charging of the interfacial metallic nanofilms to overcome the kinetic bottleneck of the multielectron, multiproton CO2RR towards more energy-dense C2 or C3 hydrocarbons. This MSCA-IF will significantly support the EU’s goal to decarbonise the energy sector, detailed in the European Green Deal, via high-impact scientific research and intellectual property generation for environmentally-friendly technologies. The Experienced Researcher (ER) will be supervised by Dr Micheál D. Scanlon at the University of Limerick (UL), Ireland, and undertake a secondment with Prof. Steven Bell at Queens University Belfast (QUB), U.K. The ER will engage in well-structured dissemination activities of the project results both to expert scientists and the general public using a multitude of engagement and outreach platforms. While the ER is accomplished in spectroelectrochemistry and nanomaterials synthesis, this fellowship will greatly expand his core scientific experimental and communication skills, international outlook, and broaden his professional network and inter-sectoral employability. Ultimately, this enhanced research capacity will allow the ER is to establish his own world-class research laboratory focusing on electrocatalysis through competitive grant acquisition, e.g. an ERC Starting grant.

System finansowania

MSCA-IF-EF-ST - Standard EF

Koordynator

UNIVERSITY OF LIMERICK
Wkład UE netto
€ 184 590,72
Adres
NATIONAL TECHNOLOGICAL PARK, PLASSEY
- Limerick
Irlandia

Zobacz na mapie

Region
Ireland Northern and Western Border
Rodzaj działalności
Higher or Secondary Education Establishments
Linki
Koszt całkowity
€ 184 590,72