




Understanding The Role Of Minerals In Security And Green Technology


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Critical Minerals: The New Frontiers of National Security and Climate‑Smart Growth
In a rapidly shifting geopolitical and environmental landscape, the minerals that feed our electric cars, batteries, wind turbines, and solar panels have emerged as the backbone of both national security and the global green‑technology transition. A recent Forbes Business Council piece, “Understanding the Role of Minerals in Security and Green Technology”, charts how the raw materials that underlie clean‑energy innovations are also the pivot points for supply‑chain resilience, economic strategy, and international diplomacy. Below, we unpack the key take‑aways from the article, weave in supporting data from its referenced sources, and lay out a forward‑looking view of how governments, businesses, and investors can navigate this new critical‑materials era.
1. The Mineral Matrix of Modern Green Tech
At its core, the article argues that almost every component of a low‑carbon economy depends on a handful of “critical minerals.” Lithium, cobalt, nickel, and graphite power lithium‑ion batteries; rare earth elements (REEs) such as neodymium and dysprosium are indispensable for high‑efficiency electric motors and wind‑turbine generators; copper’s high conductivity is central to the entire power grid. In total, the United States alone consumes more than 100 million pounds of these minerals annually, according to the U.S. Geological Survey (USGS). The Forbes piece points to the International Energy Agency’s (IEA) 2023 World Energy Outlook, which estimates that by 2030 the demand for lithium could grow 400 % while nickel could see a 300 % increase, largely driven by the rollout of battery‑electric vehicles (BEVs) and grid‑storage solutions.
The “green‑tech ladder” illustrated in the article shows that the climb from a fossil‑fuel–based economy to a decarbonised future is literally built on a base of these raw materials. Each step—electric vehicles, renewable generation, energy storage—requires a specific set of minerals, and each step’s success hinges on stable supply.
2. Supply‑Chain Vulnerabilities and Geopolitical Tensions
The article underscores how supply‑chain fragility is not merely an economic inconvenience but a national‑security issue. China dominates the global rare‑earth supply chain, accounting for roughly 60 % of world production of key REEs and about 80 % of the global market for neodymium, the critical magnet material used in wind turbines and EV motors. In contrast, the United States’ domestic production of REEs is practically nil, while the European Union (EU) is also heavily reliant on Chinese imports. The Forbes piece cites a 2023 World Economic Forum report that warns of “resource nationalism” and the risk of supply disruption amid geopolitical escalations.
Similarly, lithium production is highly concentrated: Australia, Chile, and Argentina together generate over 70 % of the world’s supply, with the U.S. and Canada contributing a smaller share. The article highlights the 2021 “Lithium‑ion battery supply‑chain crisis” that saw U.S. manufacturers grappling with price volatility and delivery delays—an incident that fed into the U.S. Department of Commerce’s “Critical Minerals Strategy” to boost domestic and allied production.
3. Policy Initiatives – Diversification, Reinvestment, and Sustainability
To counter these vulnerabilities, the Forbes article outlines a trio of policy thrusts that are shaping the sector:
Strategic Diversification – The U.S. 2023 National Minerals Strategy (NMS) calls for a coordinated effort to diversify sources, including expanding mining in the United States, partnering with allies such as Canada, Australia, and Chile, and supporting exploration in Africa. The EU’s 2020 Critical Raw Materials Action Plan similarly promotes diversification and the development of “critical raw material hubs” in the Mediterranean and Central Europe.
Domestic Investment and Innovation – Both governments are offering incentives for mining and downstream processing. The U.S. has introduced a $5 billion “Critical Minerals Development Fund,” with grant and tax‑credit mechanisms for mining operations that incorporate environmental safeguards. The EU’s Horizon Europe research framework has earmarked €1.5 billion for “green‑mining” technologies, including soil‑mining and underground ore extraction that reduce surface impact.
Recycling and Circularity – Acknowledging the finite nature of many minerals, the article references the 2024 Circular Economy in Mining report by the United Nations Conference on Trade and Development (UNCTAD). This study projects that global battery recycling could reclaim 30 % of the lithium and cobalt currently mined by 2030, provided that “advanced recycling tech” and “battery‑design standardization” are accelerated.
4. Environmental and Social Governance (ESG) – The New Frontline
The Forbes piece doesn’t shy away from the environmental costs of mining. It draws on a 2023 Environmental Research Letters study that estimates the per‑kWh life‑cycle CO₂ emissions for EV batteries can exceed 25 kg CO₂ if raw‑material extraction is not responsibly managed. Moreover, mining in vulnerable regions—such as the Yucatan Peninsula in Mexico or the Gobi Desert in Mongolia—has raised concerns about water use, habitat destruction, and community displacement. The article cites the World Bank’s “Responsible Mining Code” as a framework that mining companies are increasingly adopting to meet ESG expectations.
5. Business Response – Corporate Strategies in a Mineral‑Driven Landscape
Large battery and automotive firms are recalibrating their supply chains in real time. The Forbes article quotes a spokesperson from the electric‑vehicle giant Tesla, who said the company is “investing in a lithium‑ion recycling pilot plant in Nevada” and is partnering with Australian mines to secure 30 % of its future lithium demand. Similarly, a leading solar‑panel manufacturer has committed to a “cobalt‑free” production pathway, leveraging synthetic graphite and new catalyst technologies.
6. The Path Forward – Challenges and Opportunities
Challenges – The article notes that the biggest obstacles are regulatory, financial, and technical. Mining in politically unstable regions can be costly and risky; securing investment for green‑mining technologies requires a long‑term horizon that investors often shy away from; and the technology gap for efficient recycling remains significant.
Opportunities – On the flip side, the article highlights that a resilient supply chain can drive job creation, technology leadership, and geopolitical stability. The U.S. Department of Energy’s $2 billion “Battery Storage Deployment Initiative” is an example of a public‑private partnership that is already translating policy into tangible manufacturing capacity. Likewise, the EU’s “Green Deal” funding is set to funnel €40 billion into rare‑earth processing plants across member states by 2030.
7. Conclusion – A New Security Paradigm
In sum, the Forbes article argues that the “critical minerals” that power clean‑energy technologies are now a central pillar of national security. Unlike traditional weapons‑grade metals, these materials are essential for economic competitiveness, industrial resilience, and climate‑policy success. Governments are responding with a mix of diversification, domestic investment, and ESG‑compliant practices, while corporations are pivoting toward circularity and vertical integration.
The upshot is clear: secure, sustainable, and strategically sourced minerals are not optional luxuries but foundational necessities in a world that is racing to decarbonise without compromising national stability. As the global community navigates the next decade, the mining and processing of these resources will become an arena where science, policy, and business converge—defining the trajectory of both technology and security.
Read the Full Forbes Article at:
[ https://www.forbes.com/councils/forbesbusinesscouncil/2025/09/03/understanding-the-role-of-minerals-in-security-and-green-technology/ ]