Proprietary Materials.
Proven Performance.

Proprietary Materials.
Proven Performance.

Discover the science behind our next-generation silicon anodes.

Discover the science behind our
next-generation silicon anodes.

What Makes Our
Anodes Different

The future of energy storage requires more than incremental improvements. At Evermore, we’ve engineered a materials-first approach — developing anode technologies that deliver breakthrough energy density, extended cycle life, and environmental responsibility. Our solutions are compatible with existing manufacturing lines and optimized for full cell performance.

The future of energy storage requires more than incremental improvements. At Evermore, we’ve engineered a materials-first approach — developing anode technologies that deliver breakthrough energy density, extended cycle life, and environmental responsibility. Our solutions are compatible with existing manufacturing lines and optimized for full cell performance.

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

From Agriculture to Energy Storage

RCBW™ is our proprietary process that transforms agricultural waste — specifically cattle manure — into high-capacity silicon-carbon composite anode material. Through thermal treatment, pulverization, and carbon coating, we create a naturally conductive matrix that enhances performance while reducing production emissions by up to 40%.

Key Performance Metrics:

  • ~1500 mAh/g

  • 95% capacity retention over 500 cycles

  • 30–50% lower cost than mined silicon

  • Supports circular economy by upcycling waste

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

Ultra-Pure Silicon from Industrial Scrap

WWR™ captures the vast amount of silicon kerf waste generated during semiconductor wafer cutting. By reclaiming and refining this material through selective purification, carbon coating, and nano structuring, we produce a high-performance silicon anode with over 97% cycle retention — all while lowering material costs and waste.

Key Performance Metrics:

  • ~1570 mAh/g

  • 97% retention across 500+ cycles

  • High coulombic efficiency post-formation

  • Up to 50% cost reduction over virgin silicon

  • Validated through XRD and SEM characterization

ELSiON™
ELSiON™
ELSiON™

Designed for Demanding Applications

ELSiON™ is our most advanced anode material — a nanostructured composite of silicon, silicon oxide, and carbon engineered to maximize performance while mitigating expansion stress. Encapsulated in a porous carbon matrix, ELSiON™ supports ultra-high energy density and stable operation across EVs, drones, defense, and ESS.

Key Performance Metrics:

  • ~1750 mAh/g (gravimetric capacity)

  • 99% initial coulombic efficiency

  • Advanced cycle stability and SEI control

  • Fully compatible with slurry coating & roll-to-roll systems

  • Designed for full cell integration

Electrolyte Systems
Electrolyte Systems
Electrolyte Systems

Electrolytes Designed for Silicon Anodes

To support the high activity and surface area of our advanced silicon materials, we’ve also developed proprietary electrolyte blends — including SSE-1224 and SSE-1225 — tailored to stabilize interfacial reactions, enhance conductivity, and prevent capacity fade.

Benefits:

  • Improved cycle retention in silicon-dense cells

  • Optimized for solid-state and semi-solid architectures

  • Fully integrable with Evermore anode platforms

Our Process

Our Process

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.

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.