Battery Material Regeneration Technology: From Black Mass to High-Value Resources

We specialize in converting black mass extracted from spent batteries into sustainable recycled resources. The core of this technology lies in efficient chemical separation and purification, rather than traditional smelting methods. Valuable metals such as lithium, cobalt and nickel are recovered through a series of chemical processes including solvent extraction, precipitation and electrolysis. During these processes, reaction conditions must be carefully controlled to ensure extraction efficiency and minimize the generation of harmful by-products. The objective is to extract valuable metals to a sufficient purity level that meets industrial application requirements.

Quality Control for Profitability Improvement

Monitoring metal content and impurity levels is critical, as they directly affect the quality and market value of the final products. By enhancing the quality of metallic materials and offering competitive pricing, we jointly improve profitability. Precise process adjustments are made based on black mass composition analysis to optimize extraction performance.

Black mass recycling technology plays a pivotal role in the lithium-ion battery circular economy. Through precise chemical processes, recovered metals can be reused in battery manufacturing, forming a closed-loop circular economy. We are committed to the research and application of these advanced recycling process parameters, while establishing a comprehensive risk management system to maximize recycling benefits and reduce environmental impacts.

We strive to build a robust circular economy supply chain and proactively source various specifications of battery black mass from market partners. We attach great importance to the compositional stability and quality of black mass, as these factors directly determine our subsequent purification efficiency and the value of end products. Since the metal content of black mass directly influences transactions, our company places special emphasis on source reliability and the chemical composition of materials to ensure optimal recycling outcomes.