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04 September 2024
Gelion plc
("Gelion"
or the "Company" or the "Group")
GEN 3 Lithium-Sulfur delivers
energy density above 400Wh/kg
Milestone underscores
technological viability of Li-S battery technology for lightweight
energy storage
Gelion (AIM: GELN), the
Anglo-Australian battery innovator, has achieved a significant
milestone in the development of its Next Generation ("GEN 3")
Lithium-Sulfur (Li-S) battery technology.
As predicted in the announcement on
15 August 2024, Gelion has now successfully achieved the energy
density milestone of 402 Wh/Kg in a 12 Ah cell comprised of its GEN
3 semi-solid-state (see glossary) Li-S technology (see below for
explanation of GEN 3 and semi-solid-state). The achieved energy
density is 60-70% higher than current lithium-ion batteries
(approximately 200-250 Wh/kg), meaning a single Gelion GEN 3 Li-S
cell is over 60% lighter than a typical lithium-ion battery of the
same energy.
This achievement demonstrates
significant progress in the development of Gelion's innovative GEN
3 technology, which:
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exhibits high energy
density
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avoids reactive additives
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uses a cathode that is prepared from
commercially available materials and
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fabricated using a water-based
(non-toxic) low energy (room temperature) self-assembly process,
that can be adapted to existing gigafactory manufacturing
equipment.
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John Wood, CEO of Gelion commented on the
development:
"We are thrilled
to deliver on the expectation set out in our August update that our
GEN 3 technology would deliver on the energy density milestone of
400 Wh/kg. This is significant and provides compelling evidence
that our innovative GEN 3 approach to Li-S batteries has the
potential to not only engineer batteries with excellent safety
capabilities coupled with economical and sustainable manufacture,
but also provides the exceptional energy for weight performance
that make Li-S batteries such an attractive
technology."
Gelion's Li-S technology development pathway
CONTACTS
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Gelion plc
John Wood, CEO
Amit Gupta, CFO
Thomas Maschmeyer, Founder and
Principal Technology Advisor
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via
Alma
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Cavendish Capital Markets Limited (Nominated Adviser and Broker)
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+44
207 220 0500
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Corporate Finance
Neil McDonald; Seamus Fricker;
Fergus Sullivan
Sales
Leif Powis
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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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Glossary
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Ah
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Ampere hours. A measure of capacity
stored in the cell. The larger the number the higher the
capacity.
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Energy density (Wh/kg)
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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
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A low or polysulfide-free conversion
of sulfur within the cathode. Polysulfides are a dissolved form of
sulfur that is corrosive and reduces cycle life in traditional
lithium-sulfur batteries. Solid-to-solid conversion helps mitigate
the formation of these polysulfides.
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Semi-solid-state as a route to
increased longevity/cycle life:
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GEN 3 employs a semi-solid-state
mechanism, maintaining the sulfur-based cathode materials in the
cathode, preventing their diffusion into the electrolyte and
diminishing associated battery degradation caused by reactive
polysulfides. This approach mitigates the major degradation factor
associated with conventional Li-S technology.
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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 market, helping to make global transport, energy
consumption and storage more sustainable.
Gelion is developing a GEN 3 Lithium
Sulfur cell product for its high energy density sulfur cathode at
its expanded R&D facilities in Australia and UK, enabling it to
integrate with a variety of anodes ranging from graphite to silicon
to lithium metal, depending on the targeted application.
Gelion's GEN 3 cell is unlocking the
potential of sulfur batteries for a wide range of global mobile
applications including electrical vertical-take-off-and-landing
(eVTOL), drone markets, electric vehicles (EVs) and stationary
energy storage (ESS).
Background on GEN 3 Lithium
Sulfur
· High energy density
- Energy density greater than
400 Wh/kg, when using a 10+ Ah pouch cell.
· Semi-solid-state as a route
to increased longevity/cycle life:
GEN 3 employs a semi-solid-state mechanism, maintaining the
sulfur-based cathode materials in the cathode, preventing their
diffusion into the electrolyte and diminishing associated battery
degradation caused by reactive polysulfides. This approach
mitigates the major degradation factor associated with conventional
Li-S technology.
· Increased sulfur
utilisation: GEN 3 demonstrates
the full theoretical capacity of sulfur, i.e. a much higher sulfur
utilisation than found in conventional Li-S approaches.
· Simplified supply
chain: The innovative cathode
is produced by mixing commercially available materials with
abundant sulfur using a low-energy, room-temperature process, with
potential to eliminate the need for pre-fabrication of the sulfur
composite (sulfur composite is related to cathode active material
in conventional lithium-ion batteries), streamlining the associated
supply chain and production process and enabling localised
manufacturing.
· Environmental and economic
benefits: The water-based,
standard-atmosphere cathode production process eliminates the need
for toxic solvents, leading to significant cost savings and
enhanced manufacturability.
GEN 3 uses the extensive network of
Li-S technologies developed within Gelion and contained in the
patents acquired from Johnson Matthey in March
2023.
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.