US Edition/C O R R E C T I O N -- Princeton NuEnergy/
The MOU aims to enhance U.S. energy independence and resource circularity by advancing lithium-ion battery recycling with commercial-scale potential, Honda and Princeton NuEnergy said.
- On Jan. 5, 2026, Honda Motor Co., Ltd. and Princeton NuEnergy Inc. signed an MOU in Princeton, N.J., to advance next-generation lithium-ion battery recycling technologies.
- The agreement aims to strengthen a domestic circular battery materials supply chain and U.S. energy independence, reflecting Honda Motor Co., Ltd. and Princeton NuEnergy Inc.'s shared goals and aligning with Honda's electrification strategy.
- The MOU sets out a partnership framework for collaborative validation and possible commercial deployment, with joint testing of PNE's plasma‑based Direct Recycling and Upcycling technologies and production of rejuvenated NMC cathode active material comparable to virgin material.
- The partnership could accelerate domestic production of battery‑grade cathode active materials and bolster industry resilience as Princeton NuEnergy Inc. expands collaboration with Honda Motor Co., Ltd.
- The MOU reflects a shared commitment to accelerate sustainable materials production and supports Honda Motor Co., Ltd.'s 2050 carbon neutrality targets.
47 Articles
47 Articles
/C O R R E C T I O N -- Princeton NuEnergy/
In the news release, Honda and Princeton NuEnergy Sign MOU to Advance Collaboration in Next-Generation Battery Recycling Technologies, issued 05-Jan-2026 by Princeton NuEnergy over PR Newswire, we are advised by the company that changes have been made. The complete, corrected…
Honda and Princeton NuEnergy to collaborate on plasma-based direct cathode-to-cathode battery recycling
Japanese automaker Honda and battery materials manufacturer Princeton NuEnergy have signed a memorandum of understanding (MOU) to collaborate on the development of lithium-ion battery recycling technologies. Since 2022, the companies have conducted joint technical validation of Princeton NuEnergy’s plasma-based direct cathode-to-cathode recycling and upcycling technologies for lithium-ion battery manufacturing scrap and end-of-life materials. Th…
Coverage Details
Bias Distribution
- 66% of the sources are Center
Factuality
To view factuality data please Upgrade to Premium
