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Details of Grant 

EPSRC Reference: EP/R021554/1
Title: ISCF Wave 1:Designing Electrodes for Na Ion Batteries via Structure Electrochemical Performance Correlations
Principal Investigator: Titirici, Professor M
Other Investigators:
Drew, Professor AJ Dove, Professor MT Slade, Professor RCT
Cai, Professor Q
Researcher Co-Investigators:
Project Partners:
AVA CO2 Chinese Academy of Science Johnson Matthey
Karolinska Institute
Department: School of Engineering & Materials Scienc
Organisation: Queen Mary University of London
Scheme: Standard Research - NR1
Starts: 01 January 2018 Ends: 31 December 2018 Value (£): 1,101,992
EPSRC Research Topic Classifications:
Energy Storage
EPSRC Industrial Sector Classifications:
Related Grants:
Panel History:  
Summary on Grant Application Form
Alignment with the Industrial Strategy Challenge Funds

This proposal aims to advance fundamental knowledge within the development low cost anodes for Na-ion batteries in order to accelerate the commercialisation of Na-ion batteries in the UK. Our proposed research clearly aligns with the Industrial Strategy Challenge Funds objectives and aims as following:

ELECTRONIBs will closely collaborate with major industrial battery developers in the UK (Johnson Matthey and Faradion). Having them closely involved within our research will enable us to further apply jointly for various industrial funds in the future (for example via Innovate UK or the future Faraday Institute) to facilitate collaborations with other major industrial and academic battery developers in the UK. This will in turn increase the UK businesses' investment in R&D and improved R&D capability and capacity.

ELECTRONIBS is a highly interdisciplinary research involving materials synthesis, electrochemistry, advanced characterisation and modelling and academics with complementary expertise. We will work closely with many EU and international experts from Germany, China, Sweden and Japan and we will involve UK and International industries. Therefore, we are likely to have an important academic and industrial impact not only at national level but also internationally leading to an increased multi- and interdisciplinary research around the very challenging area of low cost energy storage.

Having directly involved in our proposal several UK and international companies working in the challenging are of batteries and energy storage will likely lead to an increased business-academic engagement on innovation activities in the field of Na-ion batteries. Key results will be discussed directly with industry, with a view to applying for Innovate UK funding to develop products based on shared expertise - our knowledge and understanding of the materials and how to synthesize/process them; industry's knowledge of product development, from initial prototype to market-ready devices, as well as their keen business acumen and market knowledge needed to successfully take a product to market.

ELECTRONIBS has partners ranging from well established companies like JM to smaller SMES working in the field of Energy Storage like Faradion as well as companies producing low cost carbon materials such as AVA CO2. We have collaborative links with Toyota Central Research and Development Laboratories, the pioneering hybrid motor vehicle company that has a truly international influence. We also have Chinese Academy of Science via the Institute of Physics involved which have now their own spin off in producing Na-ion batteries. This will likely lead to increased collaboration between younger, smaller companies and larger, more established companies up the value chain in the UK and internationally. Our international collaborations will likely increase overseas investment in R&D in the UK.

Due to their outstanding energy and power density, lithium-ion batteries (LIBs) have become the technology of choice for today's electrical energy storage. However, LIBs are not suitable for stationary energy storage because of their high costs and increasingly higher strain on lithium resources. Therefore there is a strong need to increase the diversity of energy storage solutions for energy security considerations.

Sodium-ion batteries (SIBs) started to receive significantly more attention as low cost and affordable alternative to LIBs. This grant will explore new lost cost anodes based on available precursors with the aim to increase the SIB performance and facilitate their comercialisation. We will develop fundamental insights into the mechanisms of sodium ion storage, diffusion and intercalation in our designed electrodes by employing complex characterisation techniques and molecular simulations during battery operation.
Key Findings
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