How the Battery Market Can Get Ahead with Material Recovery & Recycling

Introduction

Learn about cutting-edge lab technologies and methodologies in the battery recycling market used to study effective recovery of transition metals, and the degradation of component materials. The industry continues to expand, forecasting double-digit growth of at least 11% for 2025-2030. Analytical research is making it possible for companies to gain cost advantages in the long term – with the end goal of making material recovery more economically attractive than ore extraction and virgin material production.

Highlights

• Get an outline of various battery recycling processes, and the range of applied analytical methods utilized.
• Hear how the industry has most recently changed – opportunities and challenges such as closed-loop ambitions models and sustainability.
• Learn to accurately characterize degradation products of electrolytes from spent batteries using GCMS
• Understand essential identification of metals recovered from cathodes and the metals in electrolyte salts using ICP-OES
• Determine residual organic components and transition metal content in battery recycling products, such as black mass, using STA and ICP-OES.

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