This is a very exciting research programme at the interface of physics, chemistry and material science which may help to address the most pressing societal sustainability challenges. We are looking forward to working with our collaborators at Imperial and the UK Catalysis Hub to make this research a success and transfer the results to our industrial partners to make our world better. 'Professor Anatoly Zayats
10 May 2022
King's researcher leads £10 million EPSRC grant investigating light-driven energy-conversion
Could the world’s most abundant energy source – light – solve one of the most pressing demands for a sustainable society, reducing the energy required in key chemical processes? Professor Anatoly Zayats from King’s will lead a multidisciplinary team of physicists and chemists to investigate steering of chemical processes with plasmonic nanostructures.
Professor Anatoly Zayats from the Department of Physics at King’s will lead an Engineering and Physical Sciences Research Council (EPSRC), part of UK Research and Innovation, programme grant of £10 million funded by EPSRC and industry project partners for a six-year study to investigate light-driven energy-conversion at the nanoscale for stimulating chemical transformations. The project 'New perspectives in photocatalysis and near-surface chemistry: catalysis meets plasmonics' aims to advance a new field of research called "plasmo-catalysis", which will take the light-harvesting capabilities of metallic nanostructures and transform this energy to control chemical reaction pathways in photocatalysis and photo-electrocatalysis. The research has the potential for wide-reaching applications in energy production, environmental clean-up & the pharmaceutical industry.
This multidisciplinary research programme combines the expertise of King's and Imperial College London and UK Catalysis Hub researchers (represented by Cardiff University, UCL, University of Manchester and University of Bath), and supported by industrial partners, in order to understand underlying fundamental physical and chemical processes and how to control them and develop a material base for new photocatalysts.
The project builds on two previous programme grants between King's and Imperial College London in the field of plasmonics, which have demonstrated a fundamental understanding on how to efficiently harvest light for energy conversion - now providing a route to applications in chemistry and catalysis. In this next step, researchers from the UK Catalysis Hub will collaborate with the team to apply their expertise to some of the most challenging problems facing a green energy society.
The field of plasmonics has impacted our ability to control light and its interaction with matter on the tiniest of scales for many years — our new programme linking this research with catalysis, an area where the UK is leading, will open up fascinating opportunities for new research and ultimately devices exploiting sunlight as the primary energy source.Professor Stefan Maier, Imperial College London: '
Plasmonics offers the possibility of transformational progress in key areas of catalytic science, including those relating to low carbon energy and environmental protection. The Kings, Imperial, Catalysis Hub collaboration is ideally placed to develop and exploit these synergiesProfessor Sir Catlow, UK Catalysis Hub