Highlights
- Dr. Jianfei Li’s team developed a revolutionary mineral phase recombination process for rare earth extraction with over 98% recovery rates.
- New method dramatically reduces environmental pollution and improves economic viability of rare earth element processing.
- Research demonstrates China’s strategic advancement in clean-tech rare earth refinement, potentially outpacing Western competitors.
A peer-reviewed study led by Dr. Jianfei Li and colleagues at Inner Mongolia University of Science and Technology (opens in a new tab), published in the Journal of Sustainable Metallurgy (opens in a new tab) (Vol. 11, 2025), outlines a breakthrough in rare earth refining from China’s Bayan Obo deposit—already the world’s largest. The research presents a novel mineral phase recombination process that significantly enhances the efficiency, cleanliness, and economic viability of rare earth element (REE) extraction from complex ores.
Key findings include rare earth recovery rates exceeding 98.1% and co-recovery of thorium and iron above 98%, while reducing toxic waste and equipment needs. The process outperforms traditional sulfuric acid roasting—China’s current industrial standard—by minimizing air, water, and solid waste pollution. The resulting thorium-rich byproduct can be repurposed for high-grade nuclear fuel, adding strategic energy leverage to an already dominant resource.
The new method enables the targeted conversion of REE minerals (e.g., REFCO₃, REPO₄, ThPO₄) into oxides through a combination of thermal and chemical steps, supported by XRD and SEM diagnostics. Calcium, fluorine, and phosphorus are separately recovered, improving both purity and process efficiency. This has implications not just for cleaner processing, but for future environmental permitting globally.
Food for Thought
This is a serious strategic development. While the U.S. and EU debate early-stage mine financing and ESG guidelines, China is commercializing greener, more scalable refining routes for the same resource class that the West seeks to replace. The study was funded by China’s National Key R&D Program and Inner Mongolia’s science agencies, underscoring state-level alignment around rare earth innovation.
Limitations:
The study does not disclose full cost-per-ton figures, scalability metrics, or industrial validation beyond pilot testing. However, the environmental and metallurgical benchmarks signal a maturing Chinese capability not just in mining, but in clean-tech dominance.
Takeaway
Did Bayan Obo just get cleaner, more efficient, and harder to compete with? Western investors and policymakers need to stop thinking in terms of mining alone. The future of rare earth dominance lies in who refines best, not just who digs first.
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