About ReBatts

A Sustainable Solution to Recharge

Addressing the global energy crisis through innovative battery recycling solutions

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The Problem

Global lithium resources are finite, with expected shortages by 2050 — while e-waste volumes are surging year on year.

Ref: Kasri et al. 2024
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Our Solution

We recover lithium and critical minerals with minimal environmental impact, feeding them back into the battery supply chain.

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The Opportunity

McKinsey confirms that sourcing recycled materials for LIB manufacturing significantly reduces carbon emissions industry-wide.

Global Lithium Resource Depletion Projection 2025-2050
Global Lithium Resource Depletion Projection (2025-2050). Source: Kasri et al. 2024

100% Recovery Mission

At ReBatts, our researchers and technologists aim at achieving 100% recovery rate of precious minerals from used batteries using sustainable hydrometallurgical and electrochemical techniques.

Carbon Emission Reduction Through Recycled Materials
Carbon Emission Reduction Through Recycled Materials

Why Our Technology Wins

🔥 Pyrometallurgy (Conventional)

• Energy-intensive process
• Releases toxic by-products
• High operational costs
• Limited recovery rate (<50%)

💧 ReBatts Electrochemical Method

• Low corrosiveness reagents
• Maximizes Li-ion recovery (>95%)
• Reduced energy consumption
• Environmentally friendly

Conventional Pyrometallurgy Process
Conventional Pyrometallurgy Process
Hydrometallurgical Process Schematic
Hydrometallurgical Process
ReBatts Electrochemical Recovery Process
ReBatts Electrochemical Recovery Process
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