Identification of a new solvent that enhances separation of oxides from graphite in Battery X Recycling Technologies' proprietary eco-friendly flotation process. Preliminary trial results show a 26.5% ...

Lead-acid battery recycling and recovery are increasingly vital in addressing both environmental pollution and resource scarcity. These processes reclaim valuable lead while reducing hazardous ...

Battery X Recycling Technologies achieves 98.6% graphite recovery and 96.3% metal oxide purity using its proprietary two-stage flotation process, representing a significant milestone. Combined use of ...

Used lithium-ion batteries from cell phones, laptops and a growing number of electric vehicles are piling up, but options for recycling them remain limited mostly to burning or chemically dissolving ...

As the global electric vehicle (EV) market continues to expand, two types of LIBs dominate: NMC batteries, known for their high energy density and suitability for long-range EVs, and lithium iron ...

Although oxide recovery appeared higher in prior tests #1 and #2 using the "Prior Solvent," those tests were conducted on oxidized black mass samples. In contrast, the recent Results were achieved ...

Friction-induced infiltration of aluminum into nickel–cobalt–manganese (NCM) cathode crystals: During mechanical disassembly of spent LIBs in the recycling process, residual aluminum foil undergoes ...

Lithium-ion batteries (LIBs) are widely used in consumer electronics, electric vehicles, and renewable energy systems, making efficient recycling crucial for sustainability. A research team led by ...

Researchers in the United States have recovered lithium from battery waste using an electrochemically driven recovery process. Lithium is a critical element used in rechargeable batteries and ...