2025年第39期（总第714期）：2025全球关键矿产深度报告-赛迪译丛

Group 1: Supply and Demand Dynamics - The global supply and demand landscape for critical minerals is undergoing significant changes, with a surge in demand driven by energy transition, particularly in electric vehicles and energy storage [1][6][7] - Lithium demand is expected to increase by nearly 30% year-on-year in 2024, significantly outpacing the average annual growth rate of 10% seen in the 2010s [1][6] - By 2040, lithium, graphite, and rare earth demand is projected to grow by 4.7 times, 2.2 times, and 1.6 times respectively, with electric vehicle batteries consuming 60% of global lithium and 40% of nickel and cobalt [1][7] Group 2: Supply Concentration and Investment Trends - The supply side is characterized by increasing concentration, with China, Indonesia, and the Democratic Republic of Congo dominating the market, leading to an average market share of 86% in the refining sector for the top three producing countries [1][9] - Despite the surge in demand, global investment in critical mineral extraction is expected to slow, with growth rates dropping to 5% in 2024, half of the previous year's rate [1][10] - The International Energy Agency (IEA) warns of potential shortages, predicting a 30% gap in copper supply by 2035 and possible lithium shortages in the 2030s [1][10] Group 3: Geopolitical Influences and Market Pressures - Geopolitical tensions are reshaping resource order, with countries accelerating the establishment of mineral security frameworks, such as the U.S. simplifying licensing processes and the EU passing the Critical Raw Materials Act [2][15] - China's export controls on strategic minerals have led to significant price increases, with bismuth prices rising by 90% and cobalt prices surging by 67% following export restrictions [2][26] - The market faces structural contradictions, with rising costs and environmental pressures hindering development, as emerging producers experience higher operational costs compared to leading producers [2][8] Group 4: Policy Innovations and Technological Breakthroughs - To address these challenges, innovative policy mechanisms are needed, such as establishing certification systems for differentiated pricing and increasing public financial support for high-risk projects [3] - Technological advancements in mining, refining, and recycling are essential, including the development of new techniques to reduce energy consumption and costs in rare earth production [3][29] - The report emphasizes the importance of international cooperation and partnerships to ensure a stable supply chain for critical minerals [30][31]