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Details of Grant 

EPSRC Reference: EP/R021503/1
Title: ISCF Wave 1: North East Centre for Energy Materials
Principal Investigator: Stimming, Professor U
Other Investigators:
Houlton, Professor A Healy, Dr N Bull, Professor S
Cumpson, Professor P Zoppi, Dr G Velasquez Orta, Dr S
Shirshova, Dr N Halliday, Dr DP Hunt, Dr MRC
Mendis, Dr B Hodgkinson, Dr P Hofer, Professor W
Beattie, Dr NS Horsfall, Dr AB Yu, Dr EH
Errington, Dr RJ Gibson, Dr EA Groves, Dr C
Scott, Professor K Probert, Dr MR Yang, Dr W
Penfold, Dr TJ Cucinotta, Dr F Siller, Professor L
Researcher Co-Investigators:
Project Partners:
Big Solar Ltd Horiba (International) Kromek
Siemens Solar Capture Technologies
Department: Sch of Natural & Environmental Sciences
Organisation: Newcastle University
Scheme: Standard Research - NR1
Starts: 01 October 2017 Ends: 31 March 2021 Value (£): 1,833,674
EPSRC Research Topic Classifications:
Energy Storage Fuel Cell Technologies
Solar Technology
EPSRC Industrial Sector Classifications:
Energy
Related Grants:
Panel History:  
Summary on Grant Application Form
A wealth of world-leading international research is aimed at addressing the global challenges of energy (both generation and storage), climate-change and the problems associated with finding sustainable methods to meet our increasing energy demands. Much of this effort focuses on making existing technology more robust, efficient and cheaper or discovering new methods to convert, store and transmit renewable energy. For engineers, chemists, biologists and physicists working within the confines of their own research fields, it is impossible to recognise all of the key problems for given energy system.

These problems present on an extremely broad range of length scales (nm-m) and consequently calls for significantly more collaboration between the physical science and engineering to transmit the success of new materials discovery and understanding of the behaviour of these new materials to achieve durable, efficient, sustainable and manufacturable energy systems.

The North East Centre for Energy Materials (NECEM), formed between the universities of Newcastle, Durham and Northumbria, seeks to unite the broad range of expertise present at the three sites to tackle a grand challenge of energy

materials and will make it possible to cooperate widely with local, national and international industry. The main focus of NECEM will be to address one of the most fundamentally critical elements of all energy systems, namely the interfaces between the materials within it and their interaction with the environment in which they operate. NECEM aims to be a world-leading programme on the understanding and manipulation of such interfaces in energy materials. The vision is to identify, exploring our unique blend of materials discovery, analysis techniques and energy applications new approaches operating over the full range of length scales (nm-m) that overcome existing limitations, such as corrosion, charge trapping, marine fouling. By addressing previously unexplored directions NECEM has the ability to provide an urgently needed step change in the science and engineering of materials that use, generate and store energy more efficiently.

The assets of NECEM include the breadth of expertise within marine energy (tidal and wave energy), solar (photovoltaic and solar fuels by photo-electrochemistry), fuel cells (hydrogen and alcohol based, also enzymatic and microbial), energy storage (Li-Ion, redox-flow batteries), biomass (gasification, fermentation and direct conversion to heat or even electricity) and local smart grid structure (with concurrent production and consumption of renewable energy). We invite the Energy Materials community to engage with our centre to access this expertise and our unique blend of surface processing and characterization techniques distributed across the three sites. Probing and manipulating processes occurring at surfaces and interfaces is exceptionally complex but by combining our state-of-the-art facilities, which are ideal for this challenge, and our expertise in modelling behaviour in materials to compete systems, we can drive the development of new durable, efficient and sustainable energy solutions. We are geared towards cooperation with other centres in the UK in order to be able to cover a broad portfolio of all relevant energy material problems. This centre has the strong advantage of close proximity and brings together expertise from neighboring universities in the North East of England. Importantly this will enhance knowledge exchange and collaboration increasing the probability of success of the centre. It is also very attractive for additional funding both within the UK and in Europe.

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Organisation Website: http://www.ncl.ac.uk