battery recycling

How Pure Lithium Brine to Battery Technology Improves Energy Storage, Manufacturing

Pure Lithium’s Brine to Battery™ technology fundamentally changes the way rechargeable batteries are made, from the materials used to the methods of production. The result is a lithium-metal (Li-M) battery delivered at a lower cost with significantly higher energy density than lithium-ion (Li-ion), the dominant battery on the global market today. The Brine to Battery method turns lithium-containing brines into 99.9% pure, battery-ready Li-M anodes, using sophisticated electrochemistry.

7th Battery and Energy Storage Conference

The Battery and Energy Storage Conference will engage scientists, engineers, and policy makers working in the fields of energy storage and relevant technologies to identify, communicate, and explore current advancements in storage materials, devices, and systems.

Presentations and conversations will be around the most cutting-edge advancements to achieve reliable and cost-effective energy storage— focusing on innovative strategies involving artificial intelligence, grid resiliency, critical materials, recycling, materials scaling and device manufacturing.

Upcycling Sulfate Byproducts Into Carbon-Negative Sulfuric Acid and Green Hydrogen - The Travertine Process

The Travertine process converts aqueous sulfate into sulfuric acid and caustic solutions through electrolysis, generating clean and competitively priced hydrogen. The process involves three primary units. Initially, electrolysis divides aqueous sulfate into sulfuric acid and caustic solutions. Subsequently, Direct Air Capture (DAC) utilizes the caustic solution to extract CO2 from the air, yielding a carbonate solution. Lastly, the carbonate solution reacts with sulfate byproducts to form minerals and regenerate aqueous sulfate through mineralization.

Eco-friendly batteries

Automated recycling process that removes crucial ingredients to produce new EV batteries. In this process, robots remove modules and cells from discharged batteries. Materials are crushed, shredded, and separated into fractions of metals and plastics.