The Faraday Institution Explained

The Faraday Institution should not be confused with Faraday Institute for Science and Religion.

The Faraday Institution
Type:Research institute
Leader Title:CEO
Leader Name:Pamela Thomas
Registration Id:England and Wales: 10959095
Founder:Ryan Bayliss
Peter Bruce
David Greenwood
Stephen Heidari-Robinson
Focus:Electrochemical Energy storage, Electric battery research
Coordinates:51.5793°N -1.3076°W
Location:Harwell Science and Innovation Campus

The Faraday Institution is a British research institute aiming to advance battery science and technology. It was established in 2017 as part of the UK's wider Faraday Battery Challenge.[1] It states its mission as having four key areas: "electrochemical energy storage research, skills development, market analysis and early-stage commercialisation".[2] The Institution is headquartered at the Harwell Science and Innovation Campus near Oxford. It is a limited company and is a registered charity with an independent board of trustees.

Name

The Faraday Institution is named after Michael Faraday,[3] an English scientist who contributed to the basic understanding of electromagnetism and electrochemistry. He popularised the now common battery terminology "anode", "cathode", "electrode" and "ion". Faraday lectured on education at the Royal Institution in 1854[4] and appeared before a Public Schools Commission to give his views on education in Great Britain. Between 1827 and 1860 at the Royal Institution, Faraday presented nineteen Christmas lectures for young people. The Royal Institution Christmas Lectures series continues today, broadcast on the BBC.

Following this tradition, the Faraday Institution runs education and public engagement activities. In 2019, it launched a public discussion series on batteries with the Royal Institution[5] [6] and continued the programme in 2020, 2021 and 2022.[7] [8]

Research programmes

The Faraday Institution currently focuses on research in lithium-ion batteries, "beyond" lithium-ion battery technologies and energy storage for emerging economies.[9] Research is conducted in multidisciplinary teams with expertise that ranges across chemical engineering, chemistry, data and computer science, mechanical engineering, electrical engineering, law, materials science, maths and physics.

Lithium ion

Beyond Lithium ion

Batteries for Emerging Economies

With funding from the FCDO, in 2020 the Faraday Institution commenced research on battery technologies for use in developing countries and emerging economies.[18]

Founding universities and participating universities

The Faraday Institution was founded by seven universities:

The Faraday Institution's research projects are competitive and open to all academic battery researchers and research groups in the UK.[20]

In 2020, university participants included the following:[21]

Impacts on policy

The Faraday Institution publishes white papers and reports[22] to inform both government and industry on energy storage science, technology, economics, supply chains[23] and employment. Its report on UK battery demand[24] was used to evidence the requirement for UK based automotive battery gigafactories[25] and the need for the Automotive Transformation Fund (ATF)[26] [27] to support establishing them.[28] [29]

Battery Sustainability, Recycling and Reuse

The Faraday Institution participates in international efforts on sustainability and the recycling and reuse of lithium-ion batteries[30] [31] in emerging economies and developing countries. An effort with NREL as part of the World Bank Energy Storage Partnership[32] [33] led to the 2020 publication of "Global Overview of Energy Storage Performance Test Protocols"[34] that provides support and knowledge across the developing world on opportunities and technologies for energy storage in the electric sector. It contributed to the 2020 study "Reuse and Recycling: Environmental Sustainability of Lithium-Ion Battery Energy Storage Systems",[35] which offers an assessment of the role developing countries can play in this area.

It is a member of the World Economic Forum Global Battery Alliance, an international consortium focused on a circular economy and sustainable value chain for batteries and contributed to the 2019 report "A Vision for a Sustainable Battery Value Chain in 2030."[36]

Outreach and education

The Faraday Institution maintains outreach and education programmes[37] that extend across STEM,[38] undergraduate attraction,[39] doctoral training[40] and early career[41] professional development[42] to generate trained battery scientists and engineers.

To ensure the public has the best information on the opportunities and challenges of energy storage, and that future generations of scientists and engineers from all backgrounds are inspired to pursue promising STEM careers, the Faraday Institution has engaged delivery partners including the Royal Institution, SEO London, WISE Campaign, The Curiosity Box[43] and the Primary Science Teaching Trust (PSTT).

Notable scientists associated with the Faraday Institution

Notes and References

  1. Web site: Business Secretary announces founding partners of £65 million battery technology research institution . Press release . 2 October 2017 . Department of Department for Business, Energy & Industrial Strategy, Engineering and Physical Sciences Research Council, and The Rt Hon Greg Clark MP . live . https://web.archive.org/web/20171003191753/https://www.gov.uk/government/news/business-secretary-announces-founding-partners-of-65-million-battery-technology-research-institute . 3 October 2017.
  2. Web site: Our Mission . The Faraday Institution.
  3. Web site: Building on the Legacy of Faraday . The National Archives . 27 September 2021.
  4. Book: Science and education; lectures delivered at the Royal institution of Great Britain. Royal Institution of Great Britain. Whewell. William. Faraday. Michael. Latham. Robert Gordon. Daubeny. Charles. Tyndall. John. Paget. James. Hodgson. William Ballantyne. Lankester. E. Ray (Edwin Ray). 1917. London, W. Heinemann. The Library of Congress. 39–74 [51].
  5. Web site: The Batteries are Coming . YouTube . The Royal Institution.
  6. Web site: How Batteries Will Change Our World . Royal Institution . 27 September 2021.
  7. Web site: The Hunt for New Batteries . YouTube . The Royal Institution.
  8. Web site: The Hunt for New Batteries . Royal Institution . 27 September 2021.
  9. Web site: Research Programme . Faraday Institution.
  10. Web site: Multi-Scale Modelling . Imperial College London.
  11. Web site: ReLiB . The University of Birmingham.
  12. Web site: Nextrode . The University of Oxford.
  13. Web site: FutureCat . The University of Sheffield.
  14. Web site: CATMAT . The University of Bath.
  15. Web site: SafeBatt . University College London.
  16. Web site: SOLBAT . The University of Oxford.
  17. Web site: LiSTAR . University College London.
  18. Web site: Two research projects begin aiming to reduce the cost and improve the performance of battery technologies for use in developing countries and emerging economies – The Faraday Institution. 3 November 2020 .
  19. Web site: Batteries for Emerging Economies Details . The Faraday Institution.
  20. Web site: EPSRC . EPSRC Calls for Proposals Faraday Phase 2 . EPSRC . 27 September 2021.
  21. Web site: Faraday Institution Annual Report 2019 / 2020 . The Faraday Institution . 27 September 2021.
  22. Web site: Publications . The Faraday Institution.
  23. Book: Evans . Dennis . The Road to Zero Emissions: The Future of Trucks, Transport and Automotive Industry Supply Chains . 10 September 2020 . Kogan Page . 978-1789665628 .
  24. Web site: UK electric vehicle and battery production potential to 2040 . The Faraday Institution.
  25. Web site: Electric vehicles: driving the transition: Government Response to the Committee's Fourteenth Report of Session 2017–19 . Parliament UK.
  26. Web site: Batteries: Manufacturing Industries – Question for Department for Business, Energy and Industrial Strategy . UK Parliament . 21 July 2020.
  27. Web site: Automotive Transformation Fund . 8 September 2021 . Advanced Propulsion Centre.
  28. News: Not investing in electric car battery production could cost UK 105,000 jobs – study . The Guardian . 15 Mar 2020.
  29. News: Has Britain hit the accelerator too late in race to meet gigafactory demand? . The Telegraph . 5 Dec 2020.
  30. Book: Islam and Hossain . Mazharul M . Islam . M. Moazzem . Hossain . Science and Technology Innovation for a Sustainable Economy . 22 August 2020 . 10.1007/978-3-030-47166-8 . 9783030471651 . 241581277 .
  31. Book: Edulijee and Harrison . Electronic waste management . Transactions of the Imf . 13 March 2020 . 98 . 2 . 62 . Royal Society of Chemistry . London . 10.1080/00202967.2020.1723255 . 978-1-78801-744-2 . 216272682 .
  32. News: New International Partnership Established to Increase the Use of Energy Storage in Developing Countries . 28 May 2019.
  33. Web site: Energy Storage Partnership Fact Sheet . ESMAP.
  34. Global Overview of Energy Storage Performance Test Protocols . An Energy Storage Partnership Report, NREL .
  35. Reuse and Recycling: Environmental Sustainability of Lithium-Ion Battery Energy Storage Systems (English) . Energy Sector Management Assistance Program (ESMAP) World Bank Group . 10 September 2020 .
  36. A Vision for a Sustainable Battery Value Chain in 2030: Unlocking the Full Potential to Power Sustainable Development and Climate Change Mitigation . World Economic Forum Global Battery Alliance . September 2019 .
  37. Web site: Education and Skills . The Faraday Institution.
  38. Web site: STEM outreach . The Faraday Institution.
  39. Web site: Undergraduates . The Faraday Institution.
  40. Web site: PhD researchers . The Faraday Institution.
  41. Web site: Early Career Researchers . The Faraday Institution.
  42. Web site: Continuing Professional Development . The Faraday Institution.
  43. Web site: Stem Day in a Box . The Curiosity Box.