Disruptive Rare Earth Separation Technology
Disruptive Rare Earth Separation Technology
Disruptive Rare Earth Separation Technology
Alkemios revolutionizes metal extraction from diverse input sources using organic acid leaching and our proprietary ultra-high selective adsorption technology. We deliver unparalleled efficiency and purity by isolating metals with exceptional selectivity.
Partner with Alkemios for cutting-edge solutions redefining industry standards
The Rare Earth Processing Challenge
Global resource: Rare earths are mined across the globe
Processing bottleneck: 90%+ of rare earths processed in China
Outdated methods: Conventional solvent extraction is costly, land-intensive, and produces hazardous waste
Limited onshoring: High complexity and cost deter Western nations from building their own facilities
Economic & strategic risk: Single-region dependence drives up logistics costs and threatens supply security
About Us
About Us
About Us
About Us
A cost-effective, modular, and easily deployable refining process powered by selective molecular technology.
Empowering mining companies to streamline logistics and create a closed-loop domestic supply chain by integrating on-site refining.
Reduce Transportation Costs
Increase Value of Sealable End-Product (Refined Oxide)
On-Shore Supply Chain
Empowering mining companies to streamline logistics and create a closed-loop domestic supply chain by integrating on-site refining.
Reduce Transportation Costs
Increase Value of Sealable End-Product (Refined Oxide)
On-Shore Supply Chain
Empowering mining companies to streamline logistics and create a closed-loop domestic supply chain by integrating on-site refining.
Reduce Transportation Costs
Increase Value of Sealable End-Product (Refined Oxide)
On-Shore Supply Chain
2
Provisional Patents
10
Scientific Experts
99%
Efficiency
Magnetic REO Focus
Single-stage process
Rare Earth Elements
The Critical Role of Rare Earth Elements
Rare earth elements are a group of 17 elements, including the 15 lanthanides plus scandium and yttrium, known for their unique magnetic, luminescent, and electrochemical properties. These elements are critical components in high-tech applications such as smartphones, electric vehicles, wind turbines, and advanced military systems. Despite their name, rare earth elements are relatively abundant in the Earth's crust but are challenging to extract economically due to their dispersed concentrations and complex extraction processes
Rare Earth Elements
The Critical Role of Rare Earth Elements
Rare earth elements are a group of 17 elements, including the 15 lanthanides plus scandium and yttrium, known for their unique magnetic, luminescent, and electrochemical properties. These elements are critical components in high-tech applications such as smartphones, electric vehicles, wind turbines, and advanced military systems. Despite their name, rare earth elements are relatively abundant in the Earth's crust but are challenging to extract economically due to their dispersed concentrations and complex extraction processes
Rare Earth Elements
The Critical Role of Rare Earth Elements
Rare earth elements are a group of 17 elements, including the 15 lanthanides plus scandium and yttrium, known for their unique magnetic, luminescent, and electrochemical properties. These elements are critical components in high-tech applications such as smartphones, electric vehicles, wind turbines, and advanced military systems. Despite their name, rare earth elements are relatively abundant in the Earth's crust but are challenging to extract economically due to their dispersed concentrations and complex extraction processes
Rare Earth Elements
The Critical Role of Rare Earth Elements
Rare earth elements are a group of 17 elements, including the 15 lanthanides plus scandium and yttrium, known for their unique magnetic, luminescent, and electrochemical properties. These elements are critical components in high-tech applications such as smartphones, electric vehicles, wind turbines, and advanced military systems. Despite their name, rare earth elements are relatively abundant in the Earth's crust but are challenging to extract economically due to their dispersed concentrations and complex extraction processes
Defense Systems
CAGR 6%
REE are critical in advanced military technologies such as precision-guided munitions, radar systems, and communication devices, enhancing performance and reliability.
Defense Systems
CAGR 6%
REE are critical in advanced military technologies such as precision-guided munitions, radar systems, and communication devices, enhancing performance and reliability.
Defense Systems
CAGR 6%
REE are critical in advanced military technologies such as precision-guided munitions, radar systems, and communication devices, enhancing performance and reliability.
Defense Systems
CAGR 6%
REE are critical in advanced military technologies such as precision-guided munitions, radar systems, and communication devices, enhancing performance and reliability.
Electric Vehicles
CAGR 10%
Essential for high-efficiency electric motors and batteries, rare earth elements significantly improve the performance and range of EVs.
Electric Vehicles
CAGR 10%
Essential for high-efficiency electric motors and batteries, rare earth elements significantly improve the performance and range of EVs.
Electric Vehicles
CAGR 10%
Essential for high-efficiency electric motors and batteries, rare earth elements significantly improve the performance and range of EVs.
Electric Vehicles
CAGR 10%
Essential for high-efficiency electric motors and batteries, rare earth elements significantly improve the performance and range of EVs.
Small Electronics
CAGR 11%
Devices like smartphones, tablets, and laptops rely on rare earth elements for components such as speakers, screens, and vibration units.
Small Electronics
CAGR 11%
Devices like smartphones, tablets, and laptops rely on rare earth elements for components such as speakers, screens, and vibration units.
Small Electronics
CAGR 11%
Devices like smartphones, tablets, and laptops rely on rare earth elements for components such as speakers, screens, and vibration units.
Small Electronics
CAGR 11%
Devices like smartphones, tablets, and laptops rely on rare earth elements for components such as speakers, screens, and vibration units.
Wind Turbines
CAGR 7.8%
Rare earth elements are used in permanent magnet generators within wind turbines, enhancing efficiency and reducing maintenance needs.
Wind Turbines
CAGR 7.8%
Rare earth elements are used in permanent magnet generators within wind turbines, enhancing efficiency and reducing maintenance needs.
Wind Turbines
CAGR 7.8%
Rare earth elements are used in permanent magnet generators within wind turbines, enhancing efficiency and reducing maintenance needs.
Wind Turbines
CAGR 7.8%
Rare earth elements are used in permanent magnet generators within wind turbines, enhancing efficiency and reducing maintenance needs.
Robotics
CAGR 22%
Advanced robotics systems utilize rare earth elements in sensors, actuators, and motors, enabling precise movements and improved functionality.
Robotics
CAGR 22%
Advanced robotics systems utilize rare earth elements in sensors, actuators, and motors, enabling precise movements and improved functionality.
Robotics
CAGR 22%
Advanced robotics systems utilize rare earth elements in sensors, actuators, and motors, enabling precise movements and improved functionality.
Robotics
CAGR 22%
Advanced robotics systems utilize rare earth elements in sensors, actuators, and motors, enabling precise movements and improved functionality.
Energy Saving and Catalysis
CAGR 3%
Key in producing energy-efficient lighting like LEDs and vital for catalytic converters that reduce vehicle emissions.
Energy Saving and Catalysis
CAGR 3%
Key in producing energy-efficient lighting like LEDs and vital for catalytic converters that reduce vehicle emissions.
Energy Saving and Catalysis
CAGR 3%
Key in producing energy-efficient lighting like LEDs and vital for catalytic converters that reduce vehicle emissions.
Energy Saving and Catalysis
CAGR 3%
Key in producing energy-efficient lighting like LEDs and vital for catalytic converters that reduce vehicle emissions.
Selective Adsorption Technology
Selective Adsorption Technology
Selective Adsorption Technology
Selective capture process, where a special support synergizes with pre-organized affinity molecules to specifically target and bind with certain metals of interest
Technology
Key Features
Technology
Key Features
Technology
Key Features
Technology
Key Features
Cost Efficient
Our Single-Stage Column Technology eliminates the need for hundreds of mixer-settlers and solvents required in traditional solvent extraction (SX) processes.
Cost Efficient
Our Single-Stage Column Technology eliminates the need for hundreds of mixer-settlers and solvents required in traditional solvent extraction (SX) processes.
Cost Efficient
Our Single-Stage Column Technology eliminates the need for hundreds of mixer-settlers and solvents required in traditional solvent extraction (SX) processes.
Cost Efficient
Our Single-Stage Column Technology eliminates the need for hundreds of mixer-settlers and solvents required in traditional solvent extraction (SX) processes.
Modular
The flexibility our our technology allows us to module the flowsheet based on the volume and metals to be extracted in the feedstock of our partner
Modular
The flexibility our our technology allows us to module the flowsheet based on the volume and metals to be extracted in the feedstock of our partner
Modular
The flexibility our our technology allows us to module the flowsheet based on the volume and metals to be extracted in the feedstock of our partner
Modular
The flexibility our our technology allows us to module the flowsheet based on the volume and metals to be extracted in the feedstock of our partner
High Efficency
By utilizing tailored ligands for each element, we achieve highly selective capture efficiency in a single pass through the column.
High Efficency
By utilizing tailored ligands for each element, we achieve highly selective capture efficiency in a single pass through the column.
High Efficency
By utilizing tailored ligands for each element, we achieve highly selective capture efficiency in a single pass through the column.
High Efficency
By utilizing tailored ligands for each element, we achieve highly selective capture efficiency in a single pass through the column.
Small Footprint
By occupying only one-fifth of the space needed for solvent extraction and eliminating the need for tailings management, acid storage, and purification.
Small Footprint
By occupying only one-fifth of the space needed for solvent extraction and eliminating the need for tailings management, acid storage, and purification.
Small Footprint
By occupying only one-fifth of the space needed for solvent extraction and eliminating the need for tailings management, acid storage, and purification.
Small Footprint
By occupying only one-fifth of the space needed for solvent extraction and eliminating the need for tailings management, acid storage, and purification.
Zero Waste
Low energy consumption, zero toxic waste, and enhancing recycling capabilities
Zero Waste
Low energy consumption, zero toxic waste, and enhancing recycling capabilities
Zero Waste
Low energy consumption, zero toxic waste, and enhancing recycling capabilities
Zero Waste
Low energy consumption, zero toxic waste, and enhancing recycling capabilities
We aim to revolutionize resource recovery by efficiently extracting essential metals from various sources, promoting sustainability, and meeting the growing global demand for critical materials.
We aim to revolutionize resource recovery by efficiently extracting essential metals from various sources, promoting sustainability, and meeting the growing global demand for critical materials.
We aim to revolutionize resource recovery by efficiently extracting essential metals from various sources, promoting sustainability, and meeting the growing global demand for critical materials.
We aim to revolutionize resource recovery by efficiently extracting essential metals from various sources, promoting sustainability, and meeting the growing global demand for critical materials.
Our technology is seamlessly adaptable to recover different critical metals
Our technology is seamlessly adaptable to recover different critical metals
Our technology is seamlessly adaptable to recover different critical metals
Our technology is seamlessly adaptable to recover different critical metals
Adaptable flowsheet depending on feedstock form
Adaptable flowsheet depending on feedstock form
Adaptable flowsheet depending on feedstock form
Adaptable flowsheet depending on feedstock form
Rare Earth Elements and critical minerals could be found in different sources like mineral ores, mine tailings, coal ash, recycled materials, etc
Rare Earth Elements and critical minerals could be found in different sources like mineral ores, mine tailings, coal ash, recycled materials, etc
Rare Earth Elements and critical minerals could be found in different sources like mineral ores, mine tailings, coal ash, recycled materials, etc
Rare Earth Elements and critical minerals could be found in different sources like mineral ores, mine tailings, coal ash, recycled materials, etc
Selective capture technology is easy to modulate for different type of metals (REOs, Battery Metals, Platinum group)
Selective capture technology is easy to modulate for different type of metals (REOs, Battery Metals, Platinum group)
Selective capture technology is easy to modulate for different type of metals (REOs, Battery Metals, Platinum group)
Selective capture technology is easy to modulate for different type of metals (REOs, Battery Metals, Platinum group)
A modular, and easy-to-deploy platform to refine and recover critical elements required by energy transition technologies
Critical Metals for advance and clean technologies
Critical Metals for advance and clean technologies
Project Gallery
Empowering the Future with Domestic Rare Earth Elements
Snapshots of our team innovating within our 500-square-meter facility
Project Gallery
Empowering the Future with Domestic Rare Earth Elements
Snapshots of our team innovating within our 500-square-meter facility
Project Gallery
Empowering the Future with Domestic Rare Earth Elements
Snapshots of our team innovating within our 500-square-meter facility
Project Gallery
Empowering the Future with Domestic Rare Earth Elements
Snapshots of our team innovating within our 500-square-meter facility
Partners
Connect with us!
Let’s work together to build a more secure, sustainable rare earth supply—connect with us today.
Connect with us!
Let’s work together to build a more secure, sustainable rare earth supply—connect with us today.
Connect with us!
Let’s work together to build a more secure, sustainable rare earth supply—connect with us today.
Connect with us!
Let’s work together to build a more secure, sustainable rare earth supply—connect with us today.