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This notice has been superseded. See the latest notice: Electrochemical Arsenic Immobilization for Sustainable Cobalt Production (Special Notice)

Electrochemical Arsenic Immobilization for Sustainable Cobalt Production

Key dates

Posted
Jun 9, 2025
Response deadline
Jul 9, 2025, 3:00 PM UTC
Archive date
Archive type
auto15

Classification

Notice type
Special Notice
Base type
Special Notice
Set-aside
Set-aside code
PSC
6810

NAICS

Issuing office

Department
ENERGY, DEPARTMENT OF
Sub-tier
ENERGY, DEPARTMENT OF
Office
BATTELLE ENERGY ALLIANCE–DOE CNTR
Office code
Organization type
OFFICE
Office address
Idaho Falls, ID, 83415, USA

Place of performance

Street
Street 2
City
State
ID
Zip
83401
Country
USA

Contacts

Description

Technology Summary This technology introduces an electrochemical method for extracting cobalt from sulfoarsenide minerals, such as cobaltite (CoAsS), while simultaneously immobilizing arsenic as scorodite (FeAsO?·2H?O), a stable and low-solubility mineral form. The process enables cobalt production from arsenic-rich domestic sources by addressing both metal recovery and arsenic stabilization in a single system. The method operates at moderate temperatures (up to 70°C) and under ambient pressure conditions, without the need for chemical oxidants or high-pressure equipment. Challenge Domestic sources of cobalt remain largely untapped due to the presence of arsenic, which complicates extraction and disposal. Existing approaches to arsenic immobilization are energy-intensive, require high-pressure systems, and often depend on hazardous oxidants such as hydrogen peroxide. These limitations present cost, safety, and environmental challenges to scaling up cobalt production from arsenide-rich ores. Solution The system consists of a two-compartment electrochemical cell separated by an anion exchange or bipolar membrane. In the anode compartment, a sulfuric acid electrolyte (pH < 1) contains sulfoarsenide minerals and ferrous sulfate (FeSO?). The electrochemical process proceeds as follows: Fe(II) is oxidized to Fe(III) at the anode via applied current. Fe(III) reacts with the mineral (e.g., CoAsS), releasing cobalt and dissolving arsenic. As(III) is oxidized to As(V) chemically or electrochemically. Fe(III) and As(V) combine to form scorodite, which precipitates from solution. This process allows for the selective extraction of cobalt while co-precipitating arsenic in a stable, low-mobility form. Key Advantages Integrated Processing: Combines metal extraction and arsenic immobilization in one step. Lower Input Requirements: Operates without external oxidants (e.g., H?O?) and under ambient pressure. Improved Environmental Management: Produces scorodite, which meets criteria for long-term arsenic stabilization. Reduced Energy Consumption: Eliminates the need for autoclaves and high-temperature hydrothermal systems. Scalable Design: Suitable for modular deployment and integration into hydrometallurgical workflows. Co-Recovery Potential: Supports extraction of additional metals, including Cu, Ag, Au, and rare earth elements. Market Applications This technology is relevant to several critical sectors that rely on secure and sustainable supply chains for cobalt and other metals: Cobalt and Critical Mineral Processing: Enables extraction from previously uneconomical arsenic-rich deposits. Battery Supply Chain: Supports domestic sourcing of cobalt for lithium-ion batteries in EVs and grid storage. Mining Operations: Applicable to mineral processors working with polymetallic ores in the Idaho Cobalt Belt and other arsenide-rich regions. Environmental Remediation: Potential applications in the treatment of arsenic-bearing waste from legacy mining sites. Defense and Energy Security: Supports national strategies for critical material independence and supply chain resilience. Licensing INL’s Technology Deployment department focuses solely on licensing intellectual property and collaborating with industry partners who can commercialize our innovations. We do not engage in purchasing, procurement, or hiring external services for technology development. Our objective is to connect with companies interested in licensing and bringing our technologies to market.

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Metadata

Notice ID
f7b00b10ec254d71b6504977de994301
Full path
ENERGY, DEPARTMENT OF.ENERGY, DEPARTMENT OF.BATTELLE ENERGY ALLIANCE–DOE CNTR
Office code
Ingested
May 2, 2026
Updated
Jul 11, 2026