Leading the Way in Battery Technology


Reading time ( words)

Business Secretary Greg Clark has announced the universities that will lead pioneering research into the next generation of battery technology.

The flagship £65m Faraday Battery Institute will bring together the best minds from seven founding partner universities and industry to make the UK a global leader in battery research and technology.

Newcastle University, in collaboration with Northern Powergrid and Siemens, is one of the founding institutions, chosen for its world-leading battery research which will help to build the UK’s status as a global leader in the field.

World-leading institutions

Announcing this major investment in the UK’s research base Greg Clark said:

“Through the Faraday Research Challenge we are cementing our position as the ‘go-to’ destination for battery technology so we can exploit the global transition to a low carbon economy.

“The Faraday Battery Institute will have a critical role in fostering innovative research collaboration between our world-leading universities and world-beating businesses to make this technology more accessible and more affordable.

“We have huge expertise in this area already and the Faraday Battery Institute collaboration between our 7 founding universities provides a truly unique opportunity for us to bring together our expertise and an effort in this area behind a common set of strategic goals to ensure the UK exploits the jobs and business opportunities.”

Leading the research at Newcastle University, Professor Phil Taylor, Head of the School of Engineering, said:

“This announcement represents a huge boost for battery energy storage in the UK and Newcastle University is delighted to be one of the founding partners.

“Although the institution is focusing on batteries it will also investigate the best way to integrate them into energy systems such as electric vehicles and low carbon grids.

“Here at Newcastle University we will contribute to the institution through our internationally leading battery research spanning everything from fundamental material sciene, power electronic converters and system integration and working with key partners such as Northern PowerGrid and Siemens.”

Patrick Erwin, Director of Policy and Markets at Northern Powergrid, the company responsible for the region’s electricity distribution network, added:

“We’re looking forward to working with Newcastle University, Siemens and other partners as part of this ground-breaking institution to drive the development of battery technology which offers huge potential to facilitate revolutions in the transport and energy sectors.

“By working in partnership we’ll be able to explore how battery and electric vehicle technology can improve the services we can provide to our 8 million customers in the future and drive forward our work to support the transition to a better, smarter, more resilient, low-carbon energy system that will benefit future generations.” 

Clean energy production and effective energy storage

The Faraday Battery Institute, with £65 million from the Industrial Strategy Challenge Fund, is part of government’s £246 million investment in battery technology through the Industrial Strategy.

The universities forming the institute are Newcastle University, Imperial College London, University College London, University of Cambridge, University of Oxford, University of Southampton and University of Warwick.

EPSRC Chief Executive Professor Philip Nelson said:

“Climate change and moving towards low carbon economies mean the demand for clean energy production and effective energy storage, in the UK and globally, is rising.

“The Faraday Institute will bring leading academics in the field of battery development together to explore novel approaches that will meet these challenges and accelerate the development of new products and techniques.”

The Business Secretary confirmed in July that the government would be making an investment of £246 million, over four years, in the Faraday Research Challenge to ensure the UK builds on its strengths and leads the world in the design, development and manufacture of electric batteries.

The Faraday Research Challenge is divided into three streams - research, innovation and scale-up - which is designed to drive a step-change in transforming the UK’s world-leading research into market-ready technologies that ensures economic success for the UK.

 The Faraday Research Challenge is just 1 of 6 areas that the government, together with business and academia, identified through its flagship Industrial Strategy Challenge Fund (ISCF) as being one of the UK’s core industrial challenges and opportunities, where research and innovation can help unlock markets and industries of the future in which the UK can become world-leading.

Share


Suggested Items

Engineers Receive $22.8 Million from DOD for Cross-Disciplinary Projects

07/19/2016 | University of Texas at Austin
Three researchers in the Cockrell School of Engineering at The University of Texas at Austin have been selected by the Department of Defense to lead Multidisciplinary University Research Initiative (MURI) projects, receiving grants totaling $22.8 million to help advance innovative technologies in energy, computing and nanoelectronics.

Graphene-based Transparent Electrodes for Highly Efficient Flexible OLEDs

06/06/2016 | KAIST
The arrival of a thin and lightweight computer that even rolls up like a piece of paper will not be in the far distant future. Flexible organic light-emitting diodes (OLEDs), built upon a plastic substrate, have received greater attention lately for their use in next-generation displays that can be bent or rolled while still operating.

Global LED Market Expected to Record a CAGR of close to 17% until 2020

05/26/2016 | Business Wire
This research report titled ‘Global LED Market 2016-2020’ provides an in-depth analysis of market growth in terms of revenue and emerging market trends. The market size is calculated on the basis of revenue generated from four segments, including general lighting, backlighting, automotive lighting, and others.



Copyright © 2017 I-Connect007. All rights reserved.