Charging the Future of Li-ion Batteries

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Revolutionizing Battery Technology 

The future of energy storage depends on breakthroughs in battery performance, and Arbor is leading the charge. Our advanced lithium-ion battery technology delivers unparalleled speed, efficiency, and reliability—enabling 10-minute charging, higher energy density, and seamless integration into existing manufacturing lines.

Built on patented technology developed in collaboration with the University of Michigan and backed by leading government and industry partners, Arbor is setting a new standard for energy storage.

Why It Matters

The global transition to electrification is accelerating, but battery limitations continue to hinder widespread adoption. Slow charging times, limited energy capacity, and manufacturing inefficiencies create significant challenges for industries ranging from electric vehicles to military and industrial applications.

Arbor’s groundbreaking technology directly addresses these issues—delivering batteries that charge faster, perform better, and integrate seamlessly into existing production processes.

What Sets Arbor Apart?

  • Charge in Under 10 Minutes – Step-change improvements in charging speed.
  • Superior Energy Density – 15% higher energy storage capacity.
  • Extreme Cold Performance – Reliable fast charging in temperatures as low as -10°C.
  • Lower Cost & Seamless Manufacturing – Easily integrates with existing production lines, reducing overall costs.
  • Proven, Future-Ready Technology – Developed in collaboration with the University of Michigan and backed by the U.S. Department of Energy (DOE) and Department of Defense (DOD).

Click to learn more about faster, safer, and more efficient batteries.

Groundbreaking Performance Improvements

Our advanced Li-ion battery technology offers groundbreaking improvements in performance and efficiency, seamlessly integrates into existing manufacturing processes, and provides a future-ready ecosystem for the evolving energy storage landscape.

Advanced technology for Li-ion batteries

  • Offering step-order improvements in charging speed (<10 min) and energy density
  • Improving cold temperature
    (<0° C) performance and battery safety
  • Easily customizable for target applications

Seamlessly integrates with existing manufacturing

  • Net reduction in cell cost due to cost reductions in materials, manufacturing, formation, and overall energy consumption
  • Built with proven, turnkey components to ensure reliability, low-variability, and near-zero maintenance
  • Works with any form factor, cell size, chemistry, and manufacturing scale (niche to gigafactory)

Proven, future-ready technology ecosystem

  • Based on patented technologies developed in ongoing partnership with the University of Michigan
  • Funded in part by DOE, DOD, and State of Michigan

 

  • Forward-compatible processes beyond Li-ion battery chemistries