Closing the Loop for Lithium Batteries ForeverSustainablyResponsiblyCircularly
Building India’s next-generation lithium battery recycling ecosystem
Expert Recycling Solutions
What is ReEarth?
We process and recover valuable metals from diverse industrial sources while applying circular economy principles to reduce environmental impact and strengthen long-term material security.
Backed by MaxVolt Energy, ReEarth combines industrial expertise with future-focused sustainability to build a scalable circular metals ecosystem for India.
Our Focus
Lithium is a critical resource for electric mobility and energy storage, yet its supply is limited and highly import-dependent. Recycling lithium and other battery metals is essential to ensure sustainability, resource security, and long-term growth of the clean energy ecosystem.
The rapid growth of electric vehicles is leading to a rising volume of end-of-life lithium-ion batteries. Without responsible recycling, these batteries pose safety, environmental, and resource loss risks. Structured recycling is essential to manage battery waste efficiently and safely.
Lithium, nickel, cobalt, and other critical battery metals are finite resources with global supply constraints. Recycling reduces dependence on raw material imports and strengthens domestic access to essential minerals required for EVs and energy storage systems.
Recovering metals through recycling significantly lowers carbon emissions, energy consumption, and environmental damage compared to primary mining. Responsible lithium recycling supports cleaner production cycles and a sustainable circular economy.
ReEarth follows a structured, phased recycling approach designed to safely process end-of-life lithium-ion batteries and recover critical metals efficiently. Each phase is engineered to ensure compliance, material recovery efficiency, and long-term scalability for a circular energy ecosystem.
ReEarth follows a structured, phased recycling approach designed to safely process end-of-life lithium-ion batteries and recover critical metals efficiently. Each phase is engineered to ensure compliance, material recovery efficiency, and long-term scalability for a circular energy ecosystem.
In the first phase, end-of-life lithium-ion batteries are safely dismantled and mechanically processed. This includes controlled shredding and separation to produce black mass — a concentrated material containing lithium and other valuable battery metals.
Recycle Process
ReEarth follows a structured, compliant, and technology-driven process to recycle end-of-life lithium-ion batteries and recover critical metals. Each step is designed to ensure safety, material efficiency, and alignment with circular economy principles for clean energy systems.
End-of-life electric vehicle, solar storages and other application lithium-ion batteries are collected through authorized channels and handled under strict safety protocols. This ensures secure transportation, traceability, and risk-controlled storage before processing.
Batteries are carefully dismantled and pre-processed to separate key components such as modules, casings, and internal materials. This step prepares the batteries for efficient downstream recycling while maintaining safety and material integrity.
Processed battery components undergo controlled mechanical treatment, including shredding and separation. This results in black mass — a concentrated material containing lithium and other valuable battery metals — ready for further recovery.
Critical metals such as lithium, nickel, cobalt, and manganese are extracted and refined from black mass using advanced recovery techniques. These recovered materials are reintroduced into the supply chain, enabling a closed-loop, circular energy ecosystem.
Our Team
A multidisciplinary team working together to build a circular future for critical energy materials.
Director
CTO
