Research

Funding boost to develop new green energy materials

Professor Saiful Islam is presenting a Science Cafe talk on new materials behind clean energy technologies.

Professor Saiful Islam is leading the five year project

A research consortium led by Professor Saiful Islam (Department of Chemistry) has been awarded £3.2m by the Engineering & Physical Sciences Research Council (EPSRC) to work on new sustainable materials for energy storage and conversion.

The new grant will fund a five-year project entitled “Energy Materials: Computational Solutions” to explore and develop new materials for the next generation of green energy devices, including solar cells, lithium batteries, thermoelectrics and fuel cells.

The provision of clean sustainable energy is among the most urgent challenges to society and to the global economy, and poses fundamental, exciting scientific questions.

Materials performance lies at the heart of the development of green energy technologies, and computational methods now play a vital role in modelling and predicting the atomic-scale properties of novel materials.

Professor Saiful Islam from our Department of Chemistry is leading the consortium team which includes Professor Steve Parker and Dr Aron Walsh from Bath, and Professors Richard Catlow and Nora de Leeuw from University College London and Dr Paul Sherwood from the Daresbury Laboratory. The team also has strong links with industrial partners including Johnson Matthey and Sharp.

Understanding the atomic level operationof energy storage materials will help design better materials with novel properties

Understanding the atomic level operation of energy storage materials will help design better materials with novel properties

Professor Islam said: “Developing new sustainable materials holds the key to cheaper and more efficient solar cells for homes and rechargeable batteries for electric cars, which will help reduce carbon emissions.”

The research team will develop and apply powerful techniques for modelling the atomic level operation of energy materials. Such fresh insights could unlock the door to new families of compounds with a step change in efficiency and performance.

Dr Walsh, Whorrod Research Fellow at Bath, commented: “Our modelling work has strong links with experimental groups where we can guide research efforts, and speed up the research-to-application cycle.”

Professor de Leeuw stressed: “Computational materials science is extremely strong in the UK, and this collaborative programme will help position the UK at the forefront of computational energy research.”

Professor Parker added: “This is an exciting opportunity since there is no equivalent project inter-linking such expertise being carried out elsewhere, and so could lead to major breakthroughs in the energy field.”

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