Dry Battery Electrodes for Today–and Tomorrow

Dry Battery Electrodes for Today–and Tomorrow

Dry Battery Electrodes for Today–and Tomorrow

We’ve eliminated solvents from lithium-ion battery manufacturing. The result? Superior performance at a fraction of the cost.

We’ve eliminated solvents from lithium-ion battery manufacturing. The result? Superior performance at a fraction of the cost.

We’ve eliminated solvents from lithium-ion battery manufacturing. The result? Superior performance at a fraction of the cost.

Calculate your savings

Calculate your savings

Calculate your savings

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We Invest In The Companies Of The Future Home V1 Hero BG - Invstor X Framer Template

The Standard Is Shifting

Traditional battery manufacturing depends on toxic solvents and inefficient processes. We're building an American-made alternative because it's time for something better. From factory floor to final product, AMB’s Powder-to-Electrode™ process drives step-change improvements.

A 5× smaller factory footprint
A 5× smaller factory footprint
A 5× smaller factory footprint
Up to 75% lower energy usage
Up to 75% lower energy usage
Up to 75% lower energy usage
Lower CapEx and OpEx
Lower CapEx and OpEx
Lower CapEx and OpEx
Improved electrochemical performance
Improved electrochemical performance
Improved electrochemical performance

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From Powder to Electrode—in Three Steps

From Powder to Electrode—in Three Steps

From Powder to Electrode—in Three Steps

Dry mixing

Cathode/anode active powder is mixed with polymer binder and conductive additive.

Dry mixing

Cathode/anode active powder is mixed with polymer binder and conductive additive.

Dry mixing

Cathode/anode active powder is mixed with polymer binder and conductive additive.

Powder deposition

Application of dry mixed electrode powder onto a substrate via dry powder deposition system.

Powder deposition

Application of dry mixed electrode powder onto a substrate via dry powder deposition system.

Powder deposition

Application of dry mixed electrode powder onto a substrate via dry powder deposition system.

Calendering

Mechanical compression and binding of particles to the substrate via a hot calendering system.

Calendering

Mechanical compression and binding of particles to the substrate via a hot calendering system.

Calendering

Mechanical compression and binding of particles to the substrate via a hot calendering system.

  • CO2 Reduction

  • Lower Cost

  • Smaller Footprint

  • Higher Performance

  • CO2 Reduction

  • Lower Cost

  • Smaller Footprint

  • Higher Performance

Discover how our turnkey Powder to Electrode™ dry coating process can shrink your footprint, cut energy use, lower CapEx and OpEx, and maximize returns—all in one solution.

Calculate Your Savings

Calculate Your Savings

Calculate Your Savings

Wet vs. Dry

Traditional wet coating battery manufacturing relies on toxic and expensive solvents.

Drying and Solvent Recovery can account for up to ~50% of factory energy consumptions

Degen, Florian, et al. “Energy Consumption of Current and Future Production of Lithium‑Ion and Post Lithium‑Ion Battery Cells.” Nature Energy, vol. 8, no. 11, 28 Sept. 2023

Heffner, Reid (Rusty), Brandon Ludwig, and others. “Transforming Li‑ion Battery Manufacturing with LiGas® and Dry Electrode Technology.” Battery Technology Online, 13 Feb. 2025,

Wet mixing, coating, drying and solvent recovery accounts for ~30% of factory Capex

Krätzig, O., Degen F., A comprehensive review and analysis of technology performance characteristics of lithium-ion battery cell manufacturing. Journal of Power Sources Advances, 33, (2025)

It Adds Up

It Adds Up

For a Nominal 30 GWh Factory in North America
For a Nominal 30 GWh Factory in North America

Calculate your savings

Calculate your savings

Calculate your savings

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About Our Invest Firm Illustration Center Section About - Invstor X Framer Template
About Our Invest Firm Illustration Center Section About - Invstor X Framer Template

~$123M/yr

Total Cost Savings

Total Cost Savings

Total Cost Savings

~203 ktpa

CO₂ Cut
(=44k ICE Cars Removed From the Road)

CO₂ Cut
(=44k ICE Cars Removed From the Road)

CO₂ Cut
(=44k ICE Cars Removed From the Road)

~532 GWh/yr

~532 GWh/yr

~532 GWh/yr

Less Energy Consumed

Less Energy Consumed

Less Energy Consumed

~6%

Cell Unit Cost Decrease
(~$4.11/kWh)

Cell Unit Cost Decrease
(~$4.11/kWh)

Cell Unit Cost Decrease
(~$4.11/kWh)

Better for Your Bottom Line
Better for the Battery

Better for Your Bottom Line
Better for the Battery

Our Powder to Electrode™ dry coating process delivers:

Superior electrochemical
performance
Superior electrochemical performance
Superior electrochemical performance
Broad material compatibility (LFP, NMC, NCA, LCO, graphite, silicon etc.)
Compatibility with solid-state and sodium-ion battery systems
Quicker wetting improves process efficiency

Built in the US – Backed Globally

 Founded in Massachusetts. Powered by deep materials science. Trusted by leading investors.

The Future of Battery Manufacturing Is Dry

 Want to see what it could mean for you?

Calculate Your Savings

Calculate Your Savings

Calculate Your Savings