Century Lithium: company information

Century Lithium occupies a distinct place within the North American lithium landscape as an advanced-stage developer focused on sedimentary claystone resources in Nevada. The company’s Angel Island / Clayton Valley assets have been advanced through pilot testing, feasibility work and partnerships that target end-to-end production of battery-grade lithium carbonate suitable for electric vehicle and stationary storage supply chains. Operational claims emphasize a patent-pending chloride leach plus Direct Lithium Extraction (DLE) route, integrated with a chlor-alkali unit producing membrane-grade sodium hydroxide as a by-product. Recent commercial and financing activity, plus memoranda of understanding for chemical offtake, position the firm among junior-to-mid-tier project developers that aim to capture higher value by processing to finished battery chemicals on North American soil. The profile below compiles corporate metrics, project data, processing specifics, market partnerships and investor structure to aid comparison with peers such as Piedmont Lithium, Lithium Americas and international producers like Ganfeng Lithium and SQM.

Century Lithium corporate profile and key metrics — company snapshot for investors

This section compiles the corporate facts and public market metrics that enable rapid comparison with peers and screening by analysts. It consolidates registry, operational focus, ownership and headline market numbers sourced from corporate disclosures, exchange filings and financial data services.

Key market snapshot: share-price traces on OTC (CYDVF) recorded a price around €0.158 with intraday movement and a beta ~1.2363 in mid-September 2025. For more granular share statistics and profile data, refer to Yahoo Finance and the company’s filings on exchange platforms.

• Purpose of table: centralize fields that investors commonly compare across peers (production, technology, economics, ownership).
• Sources: company releases, feasibility documents and public market data providers such as Bloomberg and MarketScreener.
• Comparability: use this entry alongside profiles of Piedmont Lithium, Lithium Americas, and Sigma Lithium.

For cross-referencing within a broader lithium directory, Century Lithium’s page appears on independent mining directories such as 121 London Mining Directory and in analytical databases like CB Insights. The data above prioritizes metrics relevant to industrial-scale battery chemical production and is intended for side-by-side comparison with established producers including Albemarle, Livent and Panasonic as an offtake/partner category.

Angel Island / Clayton Valley project — geology, resources and operational plan

The Angel Island (Clayton Valley) asset is the technical heart of the company’s development plan. This section covers deposit type, reserve statements, mine plan fundamentals and how the project’s scale compares to regional peers in Nevada. The deposit is a sedimentary claystone-hosted lithium system which presents different extraction challenges and opportunities compared to salar brine operations common in South America.

Geology and extraction implications:

• Claystone properties: fine-grained matrix with adsorbed lithium requiring chemical release via leaching rather than collection of saline brine.
• Variability within the basin: lithological changes across the deposit mandate staged characterization programs prior to full-scale mining.
• Operational advantage: proximity to existing basin infrastructure reduces haul distances and supports tie-ins to local utilities and contractor networks.

Comparative context against peers:

1. Unlike salt-brine players such as SQM and Ganfeng Lithium (who focus on large salar operations), claystone deposits require chemical liberation steps and potentially higher upstream processing intensity.
2. Century Lithium’s planned output near 34,000 tpa places it between mid-tier stand-alone projects and the largest global producers; it is larger than many junior pilots but smaller than major integrated miners supplying global battery supply chains.
3. Regional peers in Nevada include operations and projects by companies targeting lithium for North American battery plants, aligning Century Lithium with supply-security strategies pursued by automotive OEMs such as Tesla and integrators partnering with chemical producers like Phoenix-based converters.

Project de-risking and test-work:

• Pilot outcomes: bench and pilot-scale tests have demonstrated production of lithium carbonate samples meeting ≥99.5% purity, a threshold required by many battery cathode and cell manufacturers.
• DLE adaptation: the patented chloride-leach plus DLE sequence is being iteratively optimized to increase recoveries and reduce reagent consumption.
• Case study: the pilot in Amargosa Valley produced membrane-grade sodium hydroxide as co-product via an integrated chlor-alkali unit, enabling internal reagent reuse and potential third-party sales.

For technical readers and investors seeking primary documentation, the project’s technical summary and feasibility metrics are summarized on corporate and market pages: Company website, PitchBook and mining directories such as 121 London. These contain the block model, metallurgical recovery rates and sensitivity analyses underpinning the headline NPV and IRR figures referenced earlier.

• Insight: the Angel Island project’s geology drives a processing-led development strategy, and successful scale-up of chloride-leach + DLE is the pivotal technical risk/opportunity for the company.

Processing, technology and environmental considerations — chloride leach, DLE and chlor‑alkali integration

Processing is the differentiator for Century Lithium. This section focuses on the technical route, chemistry, by-products and environmental controls that shape capital and operating cost expectations. It discusses how the selected flowsheet compares with alternative approaches used by producers such as Albemarle, Livent and others.

Technical partners and pilot validation:

• Koch Technology Solutions: partnership to implement Li‑Pro-style DLE components and scale extraction kinetics.
• Pilot plant: Amargosa Valley pilot used to generate battery-quality carbonate samples for independent labs and potential offtake partners.
• Offtake MOU: in 2025 a non-binding MOU with Orica Specialty Mining Chemicals targeted multi-year NaOH offtake, illustrating industrial pathways for co-product commercialization.

Environmental management priorities and regulatory context:

1. Water management and drawdown controls; claystone extraction can require careful groundwater modelling.
2. Tailings and solid residue handling; design favours lined containment and progressive reclamation techniques to limit long-term footprints.
3. Air and reagent handling; chloride systems and caustic processes require robust containment to meet state and federal standards in Nevada.

Comparative technology trade-offs:

• Advantages of chloride leach + DLE: faster lithium liberation compared to heap leach methods, potential for higher recovery rates and production of higher-purity concentrates for direct carbonate conversion.
• Risks: reagent intensity, integration risk between leaching and DLE stages, scaling unknowns beyond pilot throughput.
• Peer contrast: whereas companies such as Standard Lithium (DLE on brines) or brine-focused Sigma Lithium rely on different chemistries, Century’s route aims to produce a finished chemical near end-users, shortening the supply chain to manufacturers like cell assemblers and OEMs including Tesla and battery partners such as Panasonic.

Operational examples and test cases:

• Pilot sample shipments have been used to secure battery-grade testing protocols and initial customer interest.
• Integrated chlor-alkali configuration provides a hedge against reagent cost volatility by producing NaOH internally and offering third-party sales.
• Process modelling in the feasibility test showed favorable recoveries supporting the referenced economics (17.1% IRR and $3.01 billion NPV at 8%).

Insight: the processing flowsheet is the strategic asset; its commercial success will determine whether Century Lithium competes as a mid-tier producer or remains a technically promising junior pending scale-up.

Trader1

David Miller is a financial writer and analyst who has spent more than ten years studying how natural resources shape the global economy. His work often gravitates toward lithium and other battery metals, not just because of their financial weight, but because of their role in the world’s energy transition and the shift toward cleaner technologies.

Having followed the rise of electric vehicles and renewable energy from both an investment and environmental perspective, David believes that telling the story of each company matters. Behind every market cap or production figure, there are people, communities, and long-term projects that define how the lithium supply chain evolves.

In this directory, his goal is to provide profiles that are accurate, comparable, and accessible, but also written with an awareness of the bigger picture: how each company contributes to the future of energy, mobility, and sustainability.