News Release : Global Europium (III) Carbonate Production Analysis, import-export, Price Update: 2025 

News Release: May 07, 2025 

Europium (III) Carbonate Price Trend in Past Five Years and Factors Impacting Price Movements (2019–2024) 

From 2019 to 2024, the Europium (III) Carbonate price trend has undergone considerable fluctuations due to various geopolitical, technological, and economic factors. In 2019, the average price hovered around $400/MT, driven by stable demand in phosphor and catalyst industries. However, in early 2020, the onset of the COVID-19 pandemic disrupted global supply chains, leading to a temporary dip in prices, reaching an average of $370/MT in Q2 2020. 

To get the detailed Europium (III) Carbonate price trend and production news, here is an in-depth market overview of the substance’s pricing, sales, trade patterns, and new developments in 2025. 

The situation changed dramatically in 2021. As global economies began to recover and green energy initiatives accelerated, there was renewed interest in rare earth elements. Europium (III) Carbonate, used in the production of red phosphors for LED lights and display technologies, saw a price increase to $450/MT in Q3 2021. A key factor behind this increase was a surge in demand from the electronics sector and tighter environmental regulations in China, the dominant supplier of rare earth elements, which led to production slowdowns. 

In 2022, prices stabilized slightly but remained elevated. The average price was recorded at around $460/MT throughout the year. However, supply bottlenecks continued, especially due to limited mining permits and stricter environmental monitoring in mining areas in Asia. This had a cascading effect on the overall supply of Europium (III) Carbonate globally. 

2023 saw further price escalation, peaking at $500/MT in Q2 due to rising demand in Europe and North America as governments pushed forward on strategic reserves for critical raw materials. As decarbonization efforts expanded, applications in clean energy technology also pushed demand higher. Additionally, rising labor and logistics costs contributed to the upward trajectory in pricing. 

By the end of 2024, Europium (III) Carbonate price averaged around $520/MT. The market witnessed an increased emphasis on recycling initiatives and substitution efforts, but the core demand still outpaced supply. Export restrictions from major suppliers further intensified the price dynamics. 

Factors impacting these movements include geopolitical tensions, changes in environmental regulations, global demand from electronics and energy sectors, and logistical challenges. Weather disruptions, labor shortages, and inflationary pressures in key producing regions also influenced prices notably. Overall, the Europium (III) Carbonate price trend over the past five years has been shaped by a mixture of macroeconomic and sector-specific factors. 

Europium (III) Carbonate Price Trend Quarterly Update in $/MT (2025 Estimate) 

The estimated quarterly Europium (III) Carbonate price trend for 2025 is outlined below based on current production patterns and demand forecasts. 

• Q1 2025: $525/MT 

• The start of 2025 sees steady prices as the demand from display panel manufacturers and LED industry continues to hold strong. The Chinese New Year production slowdown contributes to a slightly higher average price. 

• Q2 2025: $540/MT 

Spring season brings in new procurement cycles, especially from European industries. This quarter often experiences a moderate price increase due to inventory restocking and longer shipping timelines. 

• Q3 2025: $555/MT 

During this period, a combination of higher energy costs and labor constraints push prices up. Increased activity in the clean energy sector, particularly in rare earth-based catalysts and sensors, adds to demand. 

• Q4 2025: $570/MT 

A continued upward trajectory is expected, fueled by year-end procurement and anticipated shortages. Strategic stockpiling by governments and OEMs adds further momentum to price hikes. 

The overall Europium (III) Carbonate price news indicates a stable but gradually increasing price environment throughout 2025, driven by sustained end-user demand and tight supply conditions. 

Global Europium (III) Carbonate Import-Export Business Overview 

The global trade landscape for Europium (III) Carbonate has seen a shift in recent years as new players have entered the market, and traditional suppliers have either consolidated operations or restructured to align with environmental and geopolitical challenges. 

China remains the principal producer and exporter of Europium (III) Carbonate, accounting for over 80% of the global supply. However, increased scrutiny over mining activities and regulatory enforcement have limited output, creating opportunities for other nations like Myanmar, Russia, and Australia to expand their market share. 

The Europium (III) Carbonate sales volume has seen a moderate annual growth rate of about 3–4% in recent years. The primary importers include the United States, Germany, South Korea, and Japan. These countries rely heavily on the substance for manufacturing advanced display systems, energy-efficient lighting, and defense technologies. 

The European Union, in particular, has ramped up its strategic raw materials program, which includes investments in domestic refining and recycling of rare earths. As part of its Critical Raw Materials Act, the EU is actively pursuing partnerships with African and South American nations to diversify supply sources and reduce dependence on China. 

In the United States, import trends have remained stable, although geopolitical tensions and trade tariffs have prompted some companies to consider reshoring or sourcing from allied countries. The Defense Logistics Agency (DLA) has also included Europium (III) Carbonate in its list of critical materials, prompting long-term procurement contracts and inventory buildup. 

Exporters from China have adapted to changing global dynamics by investing in cleaner production technologies to retain access to Western markets. However, periodic restrictions on rare earth exports for strategic or political reasons have caused significant fluctuations in Europium (III) Carbonate sales volume worldwide. 

On the import side, India and Southeast Asia have become emerging players. Their growing electronics and lighting industries are increasingly dependent on rare earth imports, including Europium (III) Carbonate. However, infrastructure constraints and limited refining capacities still limit their full participation in the global supply chain. 

From a logistics perspective, maritime shipping delays, rising container rates, and port congestion have continued to be pain points for exporters and importers alike. These issues have also contributed to delays in delivery schedules and further accentuated the Europium (III) Carbonate price trend globally. 

In terms of production, while China leads, there has been noticeable growth in mining activities in Brazil, Canada, and parts of Eastern Europe. These regions are receiving investments from both governments and private players aiming to establish a more resilient and diversified rare earth supply chain. 

Recycling initiatives are also being explored more aggressively. Companies in Europe and Japan are developing technologies to recover Europium (III) Carbonate from end-of-life electronics and fluorescent lamps. Though still in early stages, these processes may help reduce dependency on primary extraction over the next decade. 

Additionally, in 2025, technological innovation has begun to reshape market dynamics. Advanced hydrometallurgical processes have enabled more efficient extraction of Europium (III) Carbonate, leading to modest production increases. Automation and AI-driven quality control systems have further improved the throughput and consistency of product quality. 

Looking ahead, the Europium (III) Carbonate price news suggests that as global demand continues to rise, producers and traders will need to adapt to supply chain uncertainties and regulatory shifts. With increased interest from governments and investors in securing critical materials, Europium (III) Carbonate remains a focal point in global trade and industrial policy. 

For detailed insights and full data reports, please refer to the complete market study here: https://datavagyanik.com/reports/global-europium-iii-carbonate-market/ 

Europium (III) Carbonate Production Trends by Geography 

The global production landscape of Europium (III) Carbonate is characterized by strong regional dominance, emerging players, and evolving production techniques. China has historically held a commanding position in the production of this rare earth compound, but several other countries are now becoming increasingly relevant due to strategic investments, resource availability, and geopolitical considerations. 

China remains the leading producer of Europium (III) Carbonate, accounting for over 80 percent of global production. The country has extensive reserves of bastnäsite and monazite ores, from which rare earth elements, including europium, are extracted. Provinces such as Inner Mongolia, Sichuan, and Jiangxi are the major hubs of rare earth mining and refining operations. China’s dominance is largely attributed to its well-established infrastructure, centralized policies, and control over the value chain. Over the years, production has shifted towards more environmentally sustainable methods due to increased regulatory pressure from Chinese authorities. 

Despite being the largest producer, China has increasingly focused on domestic consumption and high-tech applications, which has slightly reduced export volumes. This redirection has triggered global concerns over supply security, prompting other nations to accelerate their own production capacities. 

Australia has emerged as a key secondary player in the rare earth elements sector, including Europium (III) Carbonate production. While not as abundant in europium-specific deposits, Australian miners extract mixed rare earths and isolate europium through advanced refining processes. Western Australia, in particular, has seen several mining initiatives supported by both public and private investments aimed at developing a sustainable rare earth supply chain. 

India is another country with significant potential in rare earth production, particularly along its eastern coastal regions. Although India’s production volumes are lower compared to China and Australia, the country is investing in research and extraction technologies, particularly through its state-run enterprises. The focus is on reducing import dependency and developing capabilities for high-purity separation of europium from mixed concentrates. 

The United States, despite having large deposits of rare earth minerals, has lagged in Europium (III) Carbonate production due to regulatory hurdles and limited refining capacity. However, recent policy shifts and funding support have reignited interest in domestic production. Nevada and California host known deposits, and companies are revisiting these sites with improved technologies for selective extraction and processing. 

European nations such as France and Germany do not produce europium on a large scale but are actively investing in recycling technologies to recover Europium (III) Carbonate from end-of-life electronics and lighting systems. The European Union has also funded several research programs aimed at securing rare earth supply through both secondary sources and international collaborations with African and Latin American countries. 

Russia has started to increase its presence in the rare earths market. Through partnerships with state-run mining firms, new projects in Siberia and the Far East have been launched to explore and produce europium along with other critical elements. These efforts are strategically aligned with Russia’s goal of becoming a major supplier of high-tech raw materials. 

Brazil, with its rich mineral resources, is also considered a potential future source of Europium (III) Carbonate. Although production is still in the exploration phase, feasibility studies and pilot projects are underway. The country’s geological conditions and existing mining framework provide a good foundation for future development. 

In Africa, countries like Madagascar and Burundi have shown promising geological surveys for rare earth elements. With international backing, small-scale mining operations are being explored. However, political instability and logistical limitations have slowed progress. 

Overall, the production trends of Europium (III) Carbonate are gradually shifting towards a more balanced global distribution, although China continues to be the central hub. The focus across geographies is on increasing refining efficiency, reducing environmental impact, and ensuring long-term supply stability through diversification and innovation. 

Europium (III) Carbonate Market Segmentation 

Key Segments of Europium (III) Carbonate Market: 

1. By Application 

1. Phosphors (Display Panels and Lighting) 

2. Catalysts 

3. Metallurgical Applications 

4. Nuclear Technology 

5. Research and Laboratory Use 

2. By End-Use Industry 

1. Electronics and Semiconductor 

2. Lighting 

3. Energy and Renewable Technology 

4. Automotive 

5. Defense and Aerospace 

3. By Purity Level 

1. 99.5% and above 

2. 99.9% and above 

3. Ultra-high purity (99.99%+) 

4. By Region 

1. Asia Pacific 

2. North America 

3. Europe 

4. Latin America 

5. Middle East & Africa 

5. By Form 

1. Powder 

2. Granule 

3. Solution 

Explanation of Leading Segments: 

The application segment of phosphors continues to dominate the Europium (III) Carbonate market. This segment benefits significantly from the sustained demand for red phosphors used in LCD displays, LED lighting, and television screens. The compound plays a crucial role in providing brightness and color balance in flat-panel displays. With the growing adoption of energy-efficient lighting and display systems globally, this application has remained the largest and most consistent source of demand. 

Catalysts represent another vital segment, particularly in automotive and petrochemical industries. Europium (III) Carbonate is used in selective catalytic reduction systems to minimize emissions. As global emission standards become stricter, the role of europium-based catalysts is growing. Although smaller in volume compared to phosphors, this segment shows steady growth due to regulatory pressures on industries to reduce their environmental footprint. 

The end-use industry segmentation highlights electronics and lighting as the leading users of Europium (III) Carbonate. Semiconductor manufacturing utilizes rare earth materials in processes that require precise optical and electronic properties. Lighting applications, particularly in the development of compact fluorescent lamps and LEDs, continue to rely on europium due to its ability to emit red and blue light efficiently. 

The energy and renewable technology segment is witnessing rapid growth. Europium is being investigated for its role in solid oxide fuel cells and other energy-related technologies. While still emerging, this segment is expected to expand over the next decade as investments in clean energy intensify. 

In the purity level segment, 99.9% and above remains the industry standard, particularly for applications in electronics and optics. Higher purity ensures better performance and fewer impurities that could affect functionality. The ultra-high purity segment, although niche, is growing in demand in specialized sectors such as quantum computing and defense. 

Regionally, Asia Pacific remains the largest market for Europium (III) Carbonate, driven by high consumption in China, South Korea, and Japan. These countries have advanced electronics industries and account for a significant portion of global production and usage. North America and Europe follow, with growing demand for high-purity materials in technology and defense sectors. These regions also lead in recycling initiatives, helping meet demand while promoting sustainability. 

The form segmentation shows that powder form dominates the market due to its ease of handling, storage, and application in various production processes. Granules and solutions are used in more specialized applications where different physical forms are preferred for process efficiency. 

Overall, the Europium (III) Carbonate market is segmented along diverse lines, with phosphor applications, high-purity grades, and Asia Pacific geography leading the way. Continuous innovations in electronics, clean energy, and sustainable manufacturing are expected to reshape the dynamics of these segments in the coming years.