Upcycled Silicon.
Unmatched Performance.

Revolutionizing battery technology with sustainable, high-capacity silicon anodes.

Explore Our Technology

Explore Our Technology

Explore Our Technology

Our latest innovation in battery materials combines next-gen energy density with true circular sustainability.

RCBW™ – Recycled Cattle Bio Waste
RCBW™ – Recycled Cattle Bio Waste
RCBW™ – Recycled Cattle Bio Waste

From Biomass to Battery Breakthrough

We upcycle cattle-derived biomass into high-capacity silicon-carbon anode materials using a proprietary carbonization process. RCBW™ delivers powerful energy density with a 40% lower carbon footprint.

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WWR™ – Waste Wafer Recycling
WWR™ – Waste Wafer Recycling
WWR™ – Waste Wafer Recycling

Precision from Silicon Scrap

WWR™ recovers ultra-pure silicon from semiconductor wafer waste, transforming industrial byproduct into scalable anode-grade material with 97% cycle retention and reduced material costs.

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ELSiON™
ELSiON™
ELSiON™

Engineered for Peak Performance

ELSiON™ is a nanostructured composite that combines silicon with engineered carbon to deliver 1750 mAh/g capacity and >99% Coulombic efficiency. Built for EVs, aerospace, and ESS applications.

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Our Process

From Waste to Power,
The Evermore Process

We transform discarded silicon and biomass into next-generation battery materials through a clean, efficient, and proprietary process. Every step is engineered for performance, sustainability, and scale.

We transform discarded silicon and biomass into next-generation battery materials through a clean, efficient, and proprietary process. Every step is engineered for performance, sustainability, and scale.

Waste Recovery

We collect silicon kerf, wafer scrap, and organic biomass like cattle manure.


Material Engineering

Through carbonization, coating, and purification, we synthesize advanced silicon-carbon composites optimized for energy density and cycle life.

Real-World Deployment

Our materials are integrated into EVs, drones, defense systems, and grid storage solutions — where performance and sustainability matter most.

Evermore ArC Center

Redefining Battery Materials for a Sustainable Future

We’re not just improving batteries — we’re reinventing how they’re made. By transforming waste into world-class energy materials, we’re enabling a cleaner, more powerful future across industries.

We’re not just improving batteries — we’re reinventing how they’re made. By transforming waste into world-class energy materials, we’re enabling a cleaner, more powerful future across industries.

Real-World Applications

Built for the Demands of Real-World Tech

Electric Vehicles (EVs)
Drones & Aerospace
Energy Storage Systems (ESS)
Defense & Tactical Equipment
Industrial Automation & Robotics
Electric Vehicles (EVs)
Drones & Aerospace
Energy Storage Systems (ESS)
Defense & Tactical Equipment
Industrial Automation & Robotics
Electric Vehicles (EVs)
Drones & Aerospace
Energy Storage Systems (ESS)
Defense & Tactical Equipment
Industrial Automation & Robotics

Ready to power what’s next?

Connect With Our Team

Powering the Next Generation of Energy

From electric vehicles to aerospace and grid storage, Evermore’s sustainable silicon anode materials are engineered for industries that demand more — performance, scale, and impact.

Ready to power what’s next?

Connect With Our Team

Powering the Next Generation of Energy

From electric vehicles to aerospace and grid storage, Evermore’s sustainable silicon anode materials are engineered for industries that demand more — performance, scale, and impact.

Ready to power what’s next?

Connect With Our Team

Powering the Next Generation of Energy

From electric vehicles to aerospace and grid storage, Evermore’s sustainable silicon anode materials are engineered for industries that demand more — performance, scale, and impact.