Electra Battery Materials Corporation provided an update on its battery materials recycling trial taking place at the Ontario refinery complex. Recent optimizations have resulted in additional improved recoveries of lithium, nickel, cobalt and other critical minerals, further bolstering the quality of saleable products. At this time, the plant-scale black mass recycling trial is largely complete, and the Company is compiling an internal report detailing the proprietary methodologies used, as well as various optimizations and modular growth scenarios.

Recent Black Mass Optimizations: Electra has improved its lithium carbonate product quality by nearly 20% from its initial processing and product quality is now approaching "technical grade" lithium carbonate. Discussions are ongoing with lithium companies to assess the tradeoffs between collaboration or producing a technical grade in-house. Manganese recovery rate has been further improved to approximately 95% by strategically modifying the use and sequencing of reagents.

Continued refinements to the process parameters for the nickel-cobalt mixed hydroxide precipitate (MHP) produced from the recycling process have at times improved paymetal concentration in the final MHP product to nearly 50% nickel and cobalt, well above quoted market standards. Improved metal concentration creates the opportunity to generate a higher metal payable, thereby improving the potential economics of continuous recycling operations. Continued optimization studies are underway, including metal recovery from internal recycling streams such as using tailings water as process water to feed the plant, thus making the process entirely closed circuit with minimal environmental impacts.

Preliminary results of laboratory work to explore the potential of isolating cobalt from nickel contained in the leach liquor using hydrometallurgical methods are positive. Isolating the cobalt could improve the overall payability of both the resultant cobalt and nickel product. Electra launched a black mass trial late in 2022 at its Ontario refinery complex to recover critical minerals from black mass in shredded lithium-ion batteries and successfully operated this demonstration process throughout 2023 on a semi-continuous basis to maximize product recoveries.

The battery recycling strategy is part of a multipronged development plan for a battery materials park supplying battery-grade material to third-party cathode precursor manufacturers. The Company has developed proprietary hydrometallurgical technology that targets all of the critical minerals present in the black mass as saleable products. Once recovered, the products can further be upgraded to battery grade materials and reused by gigafactories to produce batteries or other products.

Additional Black Mass Program Highlights: Electra has processed 40 tonnes of black mass material in a plant scale setting, believed to be the first of its kind in North America. Recovery rates for all targeted metals - lithium, nickel, cobalt, graphite, and manganese - have improved since the start of the trial in December 2022. Approximately 28 tonnes of nickel-cobalt MHP product have been shipped to customers.

Reagent requirements were reduced and in some cases alternative, less costly, reagents were used for improved overall metal recovery. Further, some of the reagent additions substituted have reduced overall impurity levels within the process. The reduction in reagent use and substitution of certain reagents are expected to lower operating expenses, thereby improving the economics of continuous recycling operations.

Black mass is the industry term used to describe the material remaining once expired lithium-ion batteries are reduced and all casings removed. Black mass contains high-value elements, including lithium, nickel, cobalt., cobalt, copper, and graphite, that once recovered, can be recycled to produce new lithium-ion batteries.