|
- Redwood | Redwood Energy Redwood Materials
Redwood Energy offers a faster, lower-cost solution: repurposing used battery packs—with most of their capacity remaining—into modular energy storage systems that bridge today’s infrastructure gaps and maximize value between recovery and recycling
- Redwood Materials | Domestic Supply Chain for Lithium-ion Batteries
Redwood is building a domestic battery supply chain to recycle lithium-ion batteries, refine their critical minerals, and remanufacture new battery materials, like cathode active material
- Recycle with us | Redwood Materials
Redwood works with businesses organizations, including auto recyclers and dismantlers, along with individuals to recycle lithium-ion batteries
- Redwood Germany | Redwood Materials
Der Redwood Standort Deutschland befindet sich in Bremerhaven, an der Nordseeküste Deutschlands Sie ist für eine jährliche Verarbeitungskapazität von 10 000 Tonnen ausgelegt, um verschiedene Formfaktoren und Lithium-Ionen-Batteriechemien zu recyceln
- San Francisco R D Center - Redwood Materials
At our research development center in San Francisco, we're scaling our engineering capabilities to meet the demands of an accelerating energy transition
- Virgin-mined vs. Recycled battery materials | Redwood Materials
See how recycled battery materials compare to virgin-mined materials in performance, environmental impact, and cost
- Redwood expands into San Francisco with new R D Center
That’s why we’re excited to announce the opening of our new research and development center in the heart of San Francisco This facility will mark Redwood’s first footprint in the Bay Area and a major milestone in our continued growth as we scale our engineering capabilities to meet the demands of an accelerating energy transition
- Redwood Energy: Fast, low-cost storage to power the age of AI and a . . .
Redwood Energy is our solution: a platform to repurpose these battery packs into low-cost, large-scale energy storage systems that fill a critical gap in today’s power landscape, while maximizing their value between recovery and recycling
|
|
|