News Release : Global Super pure Rare Earths Production Analysis, import-export, Price Update: 2025 

News Release: May 07, 2025 

Super pure Rare Earths Price, Production, Latest News and Developments in 2025 

The global market for super pure rare earths has become a focal point in 2025 amid growing demand for high-performance electronics, defense technologies, and green energy solutions. As interest grows in materials with high purity levels for critical applications, the Super pure Rare Earths price trend and production news has attracted significant attention from governments, manufacturers, and investors alike. This comprehensive press release offers insights into recent developments in the super pure rare earths market, covering pricing updates, production volumes, global sales activities, and the latest geopolitical and technological factors influencing the industry. 

Super pure Rare Earths Price Trend in Past Five Years and Factors Impacting Price Movements (2019–2024) 

From 2019 to 2024, the price trajectory of super pure rare earths has been shaped by multiple global developments, including technological demand, policy shifts, supply chain disruptions, and environmental regulations. In 2019, average super pure rare earths prices stood around $22,500/MT. These were stable years due to consistent supply from Chinese and Australian mines and moderate demand from global electronics and automotive sectors. 

In 2020, the COVID-19 pandemic disrupted mining activities and logistics, pushing prices to nearly $25,000/MT as supply chains tightened. Demand from renewable energy projects and defense sectors remained robust, keeping pressure on the limited supply. By late 2020, speculative buying also influenced the price rally. 

2021 witnessed further price escalation due to aggressive green technology investments and increased manufacturing of permanent magnets used in EVs and wind turbines. Prices reached an average of $28,300/MT. This growth phase was fueled by countries trying to secure supply chains away from China, prompting more strategic stockpiling and new project announcements in Canada, the US, and Africa. 

In 2022, global tensions and trade restrictions impacted rare earths exports, especially amid geopolitical rivalries. This drove prices to $31,000/MT. Demand surged for high-purity versions, used in advanced chip production and satellite systems. Governments tightened environmental oversight, leading to slower permitting for mining expansions, thus constraining new production capacity. 

By 2023, prices soared to $34,700/MT, partially due to the increasing need for super pure rare earths in quantum computing and medical imaging devices. Meanwhile, the launch of several processing plants in Southeast Asia and renewed investments in recycling initiatives helped partially ease the pressure. 

In 2024, the market saw marginal stabilization. With increased secondary supply from recycling and better trade agreements, prices leveled around $33,500/MT. However, intermittent disruptions in Myanmar and export restrictions in China continued to introduce volatility. 

Cumulatively, the five-year trend shows a compound price growth of nearly 49% driven by strategic, environmental, and technological factors. Prices are forecasted to remain elevated in 2025 due to the continued dominance of super pure rare earths in next-gen technologies. 

Super pure Rare Earths Price Trend Quarterly Update in $/MT – 2025 (Estimated) 

• Q1 2025: $34,200/MT 

• Q2 2025: $35,100/MT 

• Q3 2025: $36,000/MT 

• Q4 2025: $36,800/MT 

Prices are expected to rise gradually through 2025 as global demand strengthens for high-purity materials in renewable energy projects and semiconductors. Further, supply remains constrained by the slow ramp-up of new production facilities and stricter environmental controls. 

Global Super pure Rare Earths Import-Export Business Overview 

The global trade in super pure rare earths continues to evolve with shifting alliances, strategic investments, and ongoing export control measures. In 2025, the largest exporters of super pure rare earths are China, Australia, and the United States, with notable emerging contributions from Canada and Vietnam. The most significant importers include Japan, South Korea, Germany, and the United States, reflecting their advanced electronics and renewable energy sectors. 

China remains the dominant exporter, accounting for over 58% of the global super pure rare earths sales volume. Despite efforts to diversify, its centralized control over production and advanced separation technologies keeps it ahead. Export restrictions introduced in late 2024 have tightened global supply, especially of dysprosium and neodymium in their purest forms, which are crucial for high-performance magnets. 

The United States has increased domestic production capacity through federal incentives and mining grants. Mountain Pass and other facilities have scaled up output by over 20% in 2025, though most products still require external refining. The US has entered strategic supply agreements with South Korea and Japan to mitigate dependency on Chinese imports. 

Australia has emerged as a strong player with its mining operations expanding in Western Australia and the Northern Territory. Export volumes to Europe and India have grown significantly in 2025, supported by clean extraction technologies and bilateral trade deals. Australian super pure rare earths are particularly valued for consistent quality and traceable supply chains. 

Vietnam, with its rare earth deposits, is investing heavily in refining capabilities and is expected to double its export capacity by the end of 2025. In parallel, African nations like Malawi and Tanzania are entering the market with small-scale but high-grade deposits, attracting investment from European firms. 

In terms of import trends, Japan and South Korea remain the largest consumers due to their thriving electronics and EV battery industries. Both nations have increased investments in overseas mining and recycling projects to secure long-term supply. Japan, in particular, signed a five-year agreement with an Australian producer for direct supply of high-purity praseodymium oxide starting in Q2 2025. 

Germany and France have launched initiatives under the EU’s Critical Raw Materials Act, focusing on increasing domestic refining capabilities and partnerships with non-Chinese suppliers. As part of this strategy, the EU’s imports from Canada and the US have risen by nearly 17% in the first quarter of 2025. 

India, meanwhile, is scaling up imports for its renewable energy goals. The country’s energy transition plan involves massive deployment of wind turbines and electric vehicles, both of which require rare earth magnets. The Indian government is offering subsidies to local manufacturers that use certified high-purity imports. 

The global super pure rare earths production in 2025 is expected to reach over 95,000 MT, up 6% from the previous year. While mining has expanded, the high cost and complexity of achieving “super pure” standards mean that only a limited share (about 18%) of total rare earth output qualifies under this category. 

Recycling is slowly gaining ground as a supplementary source. In Japan and Europe, facilities now recover rare earths from used electronics and EV batteries with improved efficiency, contributing nearly 8,000 MT to the 2025 supply. These recycled materials help reduce dependency on mined sources and appeal to environmentally conscious buyers. 

However, trade remains vulnerable to policy changes. For example, the Chinese government is reportedly considering new quotas for rare earths exports in response to geopolitical tensions and internal demand from its growing aerospace industry. If implemented, these could lead to a spike in the super pure rare earths price news, especially during the second half of 2025. 

Meanwhile, Latin America is exploring its potential as a future supplier. Brazil has initiated geological surveys and preliminary explorations in the Amazon and Minas Gerais regions. Though commercial production is still years away, the region holds promise as part of future global diversification. 

In conclusion, the global super pure rare earths import-export landscape in 2025 reflects a strong push toward self-reliance, supply chain resilience, and quality sourcing. Countries are forming strategic partnerships, investing in new refining technology, and building recycling infrastructure. Yet, the market remains tight due to surging demand, limited high-purity supply, and persistent geopolitical uncertainties. The super pure rare earths price news will likely remain highly sensitive to shifts in trade policy, technological breakthroughs, and regional production dynamics. 

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Global Super pure Rare Earths Market Size, Production, Sales, Average Product Price, Market Share, Import vs Export – United States, Europe, APAC, Latin America, Middle East & Africa

Super Pure Rare Earths Production Trends by Geography 

The global production of super pure rare earths in 2025 continues to be heavily influenced by a combination of technological capabilities, mineral reserves, environmental regulations, and geopolitical strategies. Super pure rare earths production, distinct from standard-grade rare earths, requires advanced refining technologies and stringent purity protocols, making it concentrated in a limited number of regions. The key geographies contributing significantly to global output include China, Australia, the United States, Canada, Vietnam, and select African countries. 

China 

China remains the global leader in super pure rare earths production. Despite global diversification efforts, China controls a dominant share of over 60% of global production in 2025. Its advanced separation and refining capabilities allow it to produce high-purity neodymium, dysprosium, terbium, and other elements used in permanent magnets, lasers, and electronics. The majority of its super pure output comes from Inner Mongolia and Sichuan, with new facilities focusing on green refining methods. Strategic national policies continue to prioritize domestic supply, influencing global pricing and supply security. 

Australia 

Australia has significantly ramped up its super pure rare earths production over the past two years. Key mining operations in Western Australia and the Northern Territory feed both local and overseas refineries. In 2025, Australia is focusing on increasing its downstream refining capacity to reduce reliance on China. The country produces praseodymium, cerium, and lanthanum in high purity, with exports primarily directed to Europe, Japan, and the US. Australia’s production is also favored for meeting ESG standards, attracting sustainable investment funds. 

United States 

The United States has prioritized domestic super pure rare earths production as a national security issue. Mountain Pass in California is the largest operating site, contributing to nearly 12% of global output. However, the US still relies on offshore facilities for some processing stages, though new investments in onshore refineries are underway. In 2025, the US government supports producers through subsidies and technology grants, aiming to close the refinement gap. The country is targeting high-purity samarium and neodymium for defense and EV applications. 

Canada 

Canada is emerging as a reliable source of rare earths with a strong focus on high-purity output. Mining activities in Quebec and the Northwest Territories have begun producing measurable volumes of super pure rare earths, with further investments in refining infrastructure. Canada’s emphasis on environmental compliance and stable regulatory frameworks has attracted foreign investment. Its output is directed toward both domestic consumption and exports to Europe and Japan. 

Vietnam 

Vietnam has scaled up production by leveraging its rare earth deposits in the northwest regions. The country is investing in advanced separation plants with assistance from Japanese and Korean partners. In 2025, Vietnam accounts for 6% of the global super pure rare earths production. The focus remains on high-purity cerium and lanthanum used in polishing powders and catalysts. Vietnam’s low production costs and improving technical know-how are making it an attractive supplier in the Asia-Pacific region. 

Africa 

African nations like Malawi, Tanzania, and South Africa are at different stages of super pure rare earths production development. While Africa’s share of global output remains modest in 2025, it is projected to grow significantly. Malawi and Tanzania have discovered high-grade monazite and bastnaesite ores, and processing facilities are being built in collaboration with European and Indian companies. These efforts are part of a larger goal to establish Africa as a future strategic supplier of rare earth materials. 

Europe 

Europe’s focus is on refining and recycling rather than mining. Facilities in Estonia, France, and Germany are engaged in the separation and purification of rare earth concentrates imported from Canada and Africa. Europe is developing capabilities for producing high-purity materials from secondary sources such as electronic waste and EV batteries, contributing about 5% to the global super pure output. The EU’s Critical Raw Materials Act is driving these initiatives as the continent seeks greater autonomy. 

Overall, the super pure rare earths production landscape in 2025 reflects a multipolar shift. While China still leads in volume and technical capacity, other countries are rapidly building their own processing infrastructure to support secure and diversified supply chains. These developments will continue to influence global production patterns and price dynamics in the coming years. 

Super Pure Rare Earths Market Segmentation 

Market Segments: 

1. By Element Type 

1. Neodymium (Nd) 

2. Dysprosium (Dy) 

3. Praseodymium (Pr) 

4. Terbium (Tb) 

5. Cerium (Ce) 

6. Lanthanum (La) 

7. Yttrium (Y) 

2. By Application 

1. Permanent Magnets 

2. Catalysts 

3. Phosphors 

4. Polishing Agents 

5. Glass Additives 

6. Medical Imaging 

7. Battery Alloys 

3. By End Use Industry 

1. Automotive (EVs) 

2. Electronics and Semiconductors 

3. Renewable Energy 

4. Aerospace and Defense 

5. Healthcare 

6. Industrial Machinery 

4. By Purity Level 

1. 99.5% – 99.9% 

2. 99.9% – 99.99% 

3. Above 99.99% 

5. By Geography 

1. North America 

2. Europe 

3. Asia-Pacific 

4. Latin America 

5. Middle East & Africa 

Market Segmentation Analysis 

Among the various segments, element type plays a critical role in defining market dynamics. Neodymium, dysprosium, and praseodymium are in highest demand due to their role in permanent magnet production, which powers electric vehicle motors and wind turbines. In 2025, neodymium accounts for the largest market share, followed by dysprosium. These elements are often sold at premium prices due to their limited availability and complex refining requirements. 

The application-based segmentation reveals that permanent magnets remain the dominant use case, representing over 45% of global super pure rare earths sales volume. Catalysts, primarily using cerium and lanthanum, make up another significant share, particularly in the petroleum and automotive sectors. Polishing agents and glass additives are niche segments but contribute to stable demand, especially in Asia-Pacific markets. 

In terms of end use industry, the automotive sector continues to lead due to the global electrification trend. Electric vehicles require multiple kilograms of rare earth materials in each motor. This demand is closely followed by electronics, which use super pure rare earths in semiconductors, lasers, and display panels. The aerospace and defense industries are growing consumers, particularly in the US and Europe, where high-purity materials are essential for radar, missile guidance, and satellite systems. 

The purity level segmentation is critical in determining pricing. Materials above 99.99% purity are used in highly specialized applications such as quantum computing, medical imaging, and advanced semiconductors. These command the highest prices, often exceeding $50,000/MT depending on the element and market conditions. The mid-range purity level (99.9%-99.99%) is the largest segment by volume, balancing technical performance and affordability. 

Geographically, Asia-Pacific leads in both production and consumption, largely driven by China, Japan, and South Korea. North America is seeing rapid growth due to domestic production and rising demand from the EV and defense sectors. Europe is investing heavily in recycling and refining, aiming to reduce reliance on imports. Emerging markets in Latin America and Africa are beginning to participate through exploration and partnerships, which are expected to gradually expand their roles. 

Overall, the super pure rare earths market in 2025 is shaped by technological innovation, industrial transformation, and strategic diversification. The leading segments—neodymium in permanent magnets, high-purity elements in EVs and semiconductors, and applications in clean energy—will continue to drive growth and global competition in the years to come.