Reach
Ilika plc
("Ilika" or the
"Company")
Goliath
Prototypes Demonstrate Superior Safety
Independent assessment by University College London: Results
exceed expectations
Goliath
prototypes withstand test without exploding or overheating, unlike
lithium-ion cells
Ilika (AIM: IKA),
an independent global expert
in solid state battery technology, announces that
safety tests undertaken by independent expert assessors have
demonstrated the superior safety of Goliath solid state cell battery prototypes relative
to lithium-ion equivalent batteries.
University College London carried out the nail
penetration test, a standard battery safety assessment , on Ilika's
Goliath P1 prototype cells. This destructive test creates an
internal electrical short-circuit inside a cell by piercing the
cell with a metal nail. The test simulates a catastrophic incident
that would typically cause energy-dense lithium-ion cells with
lithium nickel manganese cobalt oxide ("NMC") cathode chemistry (, to
dangerously swell, rupture, explode, and catch fire in a process
known as thermal runaway, often leading to temperatures above
600°C. Goliath P1 cells also use high-energy NMC cathode chemistry,
however in the nail penetration tests the P1 cells neither exploded
nor caught fire, with external temperatures remaining below
80°C.
With electric vehicles ("EVs") expected to play a key role
in the NetZero transition, solid state batteries are anticipated to
provide a safer battery solution for next-generation EVs. It is
expected that a combination of improved safety performance
and high energy density will reduce the complexity of battery
packs. The reduction of parasitic packaging is, in turn, expected
to lead to lighter and safer vehicles with longer driving
range.
Testing was carried out as part of a short
collaborative study, in association with the Faraday Institution
SafeBatt project, which aims to develop an improved
understanding of safety in next generation battery technologies.
The study involves Ilika alongside researchers from the University
of Oxford and University College London. The core
Safebatt project explores the science of battery safety and works
closely with UK battery developers and manufacturers like Ilika to
inform industrial design and deployment.
A video of the test can be found
here.
Graeme Purdy,
Ilika CEO, stated: "Ilika has designed solid
state cells intended to provide a safer alternative to high-energy
lithium-ion batteries. Thanks to SafeBatt and this study, we have
now observed test results which contribute to a growing body of
evidence demonstrating Goliath's superior safety
performance."
Dr James
Robinson, Lecturer in Advanced Propulsion at University College
London and Safebatt Project Leader, said:
"These early results have exceeded our expectations in terms
of cell safety. While there is still further testing to be
undertaken, there seems to be an inherent safety advantage in nail
penetration tests for this cell type over conventional
state-of-the-art cells."
Professor Paul
Shearing, Statutory Professor in Sustainable Energy Engineering at
the University of Oxford and Safebatt Principal Investigator,
commented: "Embedding advanced safety testing
in the development cycle for next generation batteries is critical
to accelerating their deployment, and we are delighted to work with
Ilika in this study to translate our understanding of battery
safety to their solid state technology."
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For
more information contact:
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Ilika plc
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www.ilika.com
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Graeme Purdy, Chief
Executive
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Via
Walbrook PR
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Jason Stewart, Chief Financial
Officer
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Panmure Liberum Limited (Nomad and Joint
Broker)
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Tel: 020
3100 2000
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Andrew Godber, John More,
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Nikhil Varghese, Josh
Borlant
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Joh. Berenberg, Gossler & Co. KG (Joint
Broker)
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Tel: 020
3207 8700
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Mark Whitmore, Detlir
Elezi,
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Natasha Ninkov
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Walbrook PR Ltd
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Tel: 020
7933 8780 / Ilika@walbrookpr.com
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Nick Rome, Charlotte Edgar, Joe
Walker
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Mob: 07748
325 236
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About Ilika
plc - https://www.ilika.com.
Ilika specialises in the developing
and commercialisation of solid state batteries. The Company's
mission is to rapidly develop leading-edge IP, manufacture and
license solid state batteries for markets that cannot be addressed
with conventional batteries due to their safety, charge rates,
energy density and life limits. The Company achieves this by
using ceramic-based lithium-ion technology that is inherently safe
in manufacture and usage, higher thermal tolerance and easier to
recycle which differentiates our products from existing
batteries.
The Company has two product lines.
Its Stereax batteries which are designed for powering miniature
medical implants, industrial wireless sensors and specialist
internet of Things (IoT) applications and the Goliath large format
batteries designed for EV cars and cordless appliances.
About the
University of Oxford
Oxford University has been placed number 1 in
the Times Higher Education World University Rankings for the eighth
year running, and number 3 in the QS World Rankings 2024. At the
heart of this success are the twin-pillars of our ground-breaking
research and innovation and our distinctive educational
offer.
Oxford is world-famous for research and
teaching excellence and home to some of the most talented people
from across the globe. Our work helps the lives of millions,
solving real-world problems through a huge network of partnerships
and collaborations. The breadth and interdisciplinary nature of our
research alongside our personalised approach to teaching sparks
imaginative and inventive insights and solutions.
Through its research commercialisation arm,
Oxford University Innovation, Oxford is the highest university
patent filer in the UK and is ranked first in the UK for university
spinouts, having created more than 300 new companies since 1988.
Over a third of these companies have been created in the past five
years. The university is a catalyst for prosperity in Oxfordshire
and the United Kingdom, contributing £15.7
billion to the UK economy in 2018/19, and supports
more than 28,000 full time jobs.
About the
Faraday Institution
The Faraday Institution is the UK's independent
institute for electrochemical energy storage research, skills
development, market analysis, and early-stage commercialisation.
Bringing together expertise from universities and industry, the
Faraday Institution endeavours to make the UK the go-to place for
the research and development of new electrical storage technologies
for both the automotive and wider relevant sectors. Headquartered
at the Harwell Science and Innovation Campus, the Faraday
Institution is a registered charity with an independent board of
trustees, and a delivery partner for the Faraday Battery
Challenge.
For more information on the Faraday
Institution, visit www.faraday.ac.uk and
follow @FaradayInst
on twitter (X).