Gelion announced 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 Next Generation cell technology is exhibiting expected solid-to-solid conversion (see Glossary)behaviourtoward enhanced stability and longevity.

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.

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.