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Research Associate on Integrated Photovoltaics and Electrocatalysts for Solar Chemical Production

Contratto di ricercaScadenza 19 luglio 2026
Ente
Imperial College London
Paese
Regno Unito
Campo di ricerca
Chemistry » Inorganic chemistry
Lingua dell’annuncio
Inglese
Tipo di contratto
Temporary
Profilo ricercato
Ricercatore in ingegneria chimica
Titolo di studio
PhD or equivalent
Sede
London, Regno Unito
Pubblicato il
Scadenza
19 luglio 2026

Descrizione

Research Associate on Integrated Photovoltaics and Electrocatalysts for Solar Chemical Production Sintesi in italiano (traduzione automatica): Il Dipartimento di Ingegneria Chimica cerca un Ricercatore altamente motivato per un progetto finanziato dall'EPSRC, denominato SOLCHEM, che si occupa di tecnologie solari per la produzione chimica. Il candidato selezionato guiderà lo sviluppo di elettrocatalizzatori avanzati e dispositivi chimici solari integrati, lavorando sulla progettazione, sintesi e ottimizzazione di materiali catalitici. È richiesta una laurea in ingegneria chimica o un campo correlato. Il ruolo prevede anche studi meccanicistici e integrazione di sistemi, collaborando con diversi dipartimenti e partner industriali. Questa posizione offre un'opportunità unica di acquisire competenze in un ambiente di ricerca interdisciplinare, contribuendo alla produzione sostenibile di sostanze chimiche utilizzando energia rinnovabile. The Department of Chemical Engineering is seeking a highly motivated Research Associate to join the newly funded EPSRC project SOLCHEM (Integrated Photovoltaics and Electrocatalysts for Solar Chemical Production) . SOLCHEM aims to develop next-generation solar-driven technologies that convert carbon dioxide and waste glycerol into valuable chemicals. The project brings together expertise in photovoltaics, photoelectrochemistry, electrocatalysis and sustainable chemical manufacturing to create integrated devices capable of producing chemicals directly from sunlight. We are looking for an ambitious researcher to lead the development of advanced electrocatalysts and integrated solar chemical devices. The successful candidate will work on the design, synthesis and optimisation of electrocatalysts for the selective reduction of carbon dioxide to ethylene and the selective oxidation of glycerol to lactic acid. Particular emphasis will be placed on developing efficient, inexpensive and scalable catalyst materials, while understanding the fundamental reaction mechanisms that govern catalytic activity, selectivity and stability. The role spans catalyst development, mechanistic studies and systems integration. You will investigate catalyst structure–performance relationships using advanced physico-chemical, electrochemical and operando characterisation techniques, while developing a fundamental understanding of reaction pathways and degradation mechanisms. You will also contribute to the utilisation of direct-air-captured carbon dioxide and industrial glycerol streams for sustainable chemical production. The project is inherently interdisciplinary and involves close collaboration across the Departments of Chemical Engineering, Chemistry, and Materials. The successful candidate will be based within Dr Salvador Eslava's group in the Department of Chemical Engineering and will work closely with Professor Magdalena Titirici on catalyst development and Professor Ifan Stephens on electrochemical and mechanistic investigations. A central aspect of the role will be the integration of advanced electrocatalysts into photoelectrochemical devices for solar chemical production. You will develop catalytic materials and incorporate them into integrated systems alongside photovoltaic photoabsorbers, conductive carbon protection layers and reactor architectures for the direct conversion of sunlight, carbon dioxide and waste feedstocks into valuable chemicals. You will work closely with a second Research Associate developing advanced perovskite and organic photoabsorber materials in Dr Nicola Gasparini's group, jointly integrating electrocatalysts, photoabsorbers and protective interfaces into complete photoelectrochemical devices and performing advanced operando and ex situ characterisation studies to understand device performance and reaction mechanisms. The role will also involve collaboration with a network of leading industrial and academic partners. This unique research environment provides an exceptional opportunity to gain expertise across the full technology chain, from catalyst discovery and mechanistic understanding through device engineering and reactor integration to the production of sustainable chemicals using renewable energy. For more information on the research undertaken by the participating groups, please explore their recent publications and research webpages. What you would be doing Take initiatives in the planning of your research, as well as help to direct the work of small research teams, including undergraduate and postgraduate students Design, synthesise and optimise electrocatalysts for carbon dioxide reduction and glycerol valorisation and related reactions Investigate catalyst structure–performance relationships using advanced physico-chemical, electrochemical and operando characterisation techniques Develop mechanistic understanding of catalytic activity, selectivity and stability Integrate electrocatalysts into photoelectr Annuncio in inglese. Fonte: Euraxess (Commissione e

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Fonte: Euraxess (Commissione europea) · Servizio indipendente

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