4 April 2024
Gelion plc
("Gelion" or the
"Company")
Lithium-Sulfur Cell High Energy Density Milestone
Achieved
Gelion (AIM: GELN), the
Anglo-Australian battery innovator, announces an update on its Next
Generation Lithium-Sulfur (Li-S) battery
development.
Gelion has achieved a high energy
density milestone by fabricating a 395 Wh/kg lithium-sulfur
9.5 Ah pouch cell (commercial cell format). This result
represents a c. 60% increase in the energy density (lower weight)
compared with current lithium-ion batteries (approximately 250
Wh/kg).
Further to the announcement on 19
March 2024, Gelion had produced 1.0 Ah cells using the OXIS
Gen2 cell technology that achieved energy density of 245 Wh/kg. The
achievement of 395 Wh/kg aligns with the independent energy density
modelling projections for a larger cell format.
Achievement of this milestone
represents a key technology proof point for Gelion. By
re-establishing this performance, building on the OXIS Gen 2
technology and IP acquired from Johnson Matthey. The Company has
set a new benchmark against which to compare upcoming 'Next
Generation' cell which targets further performance improvements
upon this announced result.
On 19 March 2024, Gelion identified
that testing of our Next Generation cell technology is exhibiting
our expected solid-to-solid conversion (see Glossary)
behaviour toward enhanced
stability and longevity. We will continue to progress these
developments in addition to the silicon-sulfur cell technology in
cooperation with Ionblox.
Gelion's ambition for its next
generation platform is to unlock the potential of sulfur batteries
for a wide range of global applications including electric
vertical-takeoff-and-landing (eVTOL) aircraft, drones, electric
vehicles (EV), and stationary energy storage (ESS), as high Wh/kg
translates to lighter batteries and opens many advantages for these
markets. Sulfur being an abundant material offers a future not
limited by geographically concentrated and controlled battery
metals which significantly improves battery lifecycle
sustainability.
John Wood, CEO of Gelion said: "This result further
validates Gelion's Li-S technology plan. In 2023 we established a
leading Li-S cell technology foundation following the acquisition
of OXLiD and the IP acquired from OXIS and Johnson Matthey. Whilst
these are still early results, we intend to build on them actively
throughout 2024, unveiling and demonstrating the unique core
proposition that Gelion is assembling.
"We continue to build on our position within the global
battery industry and focus on establishing a strong identity and
market presence which is centred on the key metrics of performance,
cost, and safety, ready to leverage once our technologies
go-to-market."
Background
In May 2023, Gelion updated on the
progress made using the battery technology package acquired from
Johnson Matthey (containing, in addition to its own IP, the Li-S IP
and know-how from OXIS Energy). Gelion has worked over the past
nine months to benchmark, improve on, and define a next generation
approach to Li-S battery development.
Li-S batteries are an advanced
alternative to Li-ion batteries that can achieve much greater
gravimetric energy densities (measured as amount of energy per
battery weight). This is critical to drive down the weight in
mobile applications such as EV's, e-aviation, and drones, reducing
auxiliary component cost and lessening their upfront environmental
impact. They do not contain rare metals in the cathode and can be
scaled to meet the demands of global electrification. The
technology shows promise to be safer (lower risk of fires) than
current batteries.
CONTACTS
|
Gelion plc
John Wood, CEO
Amit Gupta, CFO
Thomas Maschmeyer, Founder and
Principal Technology Advisor
|
via Alma
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Cavendish Capital Markets Limited (Nominated Adviser and Broker)
|
+44 207 220
0500
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Corporate Finance
Neil McDonald / Seamus Fricker /
Fergus Sullivan
Sales
Leif Powis
|
|
|
Alma Strategic Communications (Financial PR Adviser)
Justine James/ Hannah Campbell / Will Ellis Hancock
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+44 20 3405
0205
gelion@almastrategic.com
|
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The information contained within
this announcement is deemed to constitute inside information as
stipulated under the Market Abuse Regulation (EU) No. 596/2014
which is part of UK law by virtue of the European Union
(withdrawal) Act 2018. Upon the publication of this announcement,
this inside information is now considered to be in the public
domain.
Glossary
|
Ah
|
Ampere hours. A measure of capacity
stored in the cell. The larger the number the higher the
capacity.
|
|
Energy density (Wh/kg)
|
The ratio of energy stored per unit
weight i.e. Watt-hours per kilogram. The higher the number the
lighter the battery.
|
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Pouch cell
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An industry standard format of a
battery which comprises a flat pouch-shaped design with a
multi-layered laminate structure.
|
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Solid-to-solid conversion
|
A low or polysulfide-free conversion
of sulfur within the cathode. Polysulfides are a liquid form of
sulfur that are corrosive and reduce cycle life in traditional
lithium-sulfur batteries. Solid-to-solid conversion helps mitigate
the formation of the polysulfides.
|
About Gelion
Gelion ("gel: ion") is a global
-energy storage innovator, supporting the transition to a more
sustainable economy by commercialising two globally important next
generation technologies: Lithium-Sulfur (Li-S) and Zinc-based (Zn)
hybrid cells to electrify mobile and stationary
applications. Gelion plc (the Group) is
listed on the London Stock Exchange's AIM
market and wholly owns Australia based
Gelion Technologies Pty Ltd. Gelion is designing and delivering innovative battery technology to
enable that transition and return value for its customers and
investors.
Lithium Sulfur
Gelion's effort is directed at the
potential for the Li-S chemistry to deliver double the gravimetric
energy density of standard Lithium-ion chemistries whilst
concurrently reducing cost and increasing safety, targeting the EV
and e-aviation markets, helping to make global transport, energy
consumption and storage more sustainable.
Gelion is developing a product for
its high energy density sulfur cathode at its expanded R&D
facilities in Sydney, enabling it to integrate with a variety of
anodes ranging from graphite to silicon to lithium metal, depending
on the targeted application.
Gelion recently also expanded in the
UK by acquiring OXLiD Ltd, significantly increasing its capability
in cathode improvement thereby accelerating path to commercial
partners and commercialisation.
Zinc
Gelion is adapting its zinc
technology to comprise an alternate cathode technology, a zinc
hybrid cell to develop complementary next-generation batteries for
the lead-acid eco-system. Early testing indicates that this
solution has the potential to maintain good energy density levels
with enhanced cost and safety aspects. Once fully developed, Gelion
intends for its zinc technology to provide a durable and
sustainable market extension within the ecosystem that supports
lead-acid batteries.