Digital Platforms and Critical Material Markets
Industrial Magnet Markets are Primed for Change
Digital platforms can transform critical material markets by addressing inefficiencies. Today, the supply and demand for critical materials like lithium, cobalt, and neodymium largely occur through opaque, bilateral contracts. By bringing together a broader array of suppliers and buyers on a single digital platform, the market could become more liquid, allowing participants to transact more efficiently.
Perhaps most promising is the potential for digital platforms to unlock more supply from secondary markets through repair, remanufacturing, and recycling of products containing critical materials. By connecting suppliers of secondary materials with manufacturers and buyers, platforms could increase the overall supply of critical materials, promote sustainability, and reduce dependence on primary extraction. This is particularly urgent in light of China's export bans on critical materials, which have increased in scope and restrictiveness since 2023.
Case of Industrial Magnets
Industrial magnets play a critical role in the global economy, with applications in electronics, manufacturing, healthcare, material handling, and energy generation. They come in various forms, including permanent magnets, electromagnets, and temporary magnets.1
Digital platforms currently play a limited role in aggregating and matching buyers and sellers of used industrial magnets. There are no major commodity exchanges that offer standardized spot or futures contracts for critical magnet materials like neodymium, samarium-cobalt, alnico, or ferrite. Similarly, there are no widely accessible digital marketplaces where buyers can directly purchase refined neodymium, samarium-cobalt, alnico, or ferrite extracted from hard drives, motors, wind turbines, or medical equipment.
Some platforms support transactions of new and used magnets. For general consumers and small businesses, platforms like Facebook Marketplace and Craigslist occasionally have listings from private sellers or surplus dealers. eBay offers a global marketplace for everything from scrap neodymium magnets to surplus machinery magnets and small industrial units.
For larger-scale and industrial transactions, there are specialized B2B platforms. Alibaba hosts listings for bulk scrap magnets, connecting international buyers and sellers. eWorldTrade connects global buyers with sellers of industrial magnetic scrap, while MetalWorld serves as a niche platform for trading scrap metal and magnet materials.
Industrial equipment exchanges provide another source for magnet transactions, particularly for used or surplus equipment. SurplusRecord lists pre-owned lifting magnets from well-known manufacturers, appealing to businesses looking for cost-effective solutions. Machinio aggregates global listings for used magnetic separators, chucks, and conveyors. LabX.com specializes in laboratory and research equipment, including NMR and MRI magnets.
Auction platforms like Ritchie Bros/IronPlanet and J&M Industrial trade in used and surplus magnets. Ritchie Bros/IronPlanet conducts online auctions for heavy industrial equipment, including crane electromagnets and scrap handling magnets. J&M Industrial facilitates the sale of used drum magnets, grate magnets, and separators, working directly with manufacturers and end-users.
Despite the growing number of online platforms dedicated to buying and selling magnets, many magnets are still discarded rather than captured and resold. This is true for magnets found in electronic devices, medical imaging machines, industrial machinery, and even the energy sector.
As a result, the current resale market only captures a fraction of the potential supply, leaving considerable room for growth. If more magnets from obsolete or surplus equipment were recovered and listed on online platforms, the volume and diversity of magnets available for resale could increase dramatically. This would benefit buyers by expanding their options and potentially lowering costs, while contributing to sustainability by reducing waste and encouraging the reuse of valuable resources.
Realizing the Full Potential of Platforms
The full potential of digital platforms in critical material markets can only be achieved by overcoming several challenges. First, the rare earth market has historically lacked transparency in pricing, supply, and demand data, making it difficult to establish standardized contracts and reliable market benchmarks. Another major obstacle is supply chain concentration, with most critical material production controlled by a small number of producers, particularly in China, leading to supply risks and market manipulation concerns. Environmental and social concerns surrounding rare earth mining add to the regulatory scrutiny and public opposition, disrupting supply and deterring investment in transparent trading systems. The lack of standardized product grades has made it challenging to create fungible, exchange-traded contracts. These combined factors have historically hindered the development of robust commodity trading platforms for virgin neodymium and other critical materials.2
A different set of constraints has shaped the creation of secondary markets. For example, the economics of recycling magnets, especially rare earth magnets, have been unfavorable due to the high costs and technical complexity of extracting and processing magnets from end-of-life products and the low market value of recovered materials compared to newly mined resources. Recycling processes are often energy-intensive and can generate hazardous waste, further increasing costs and offsetting environmental benefits. The industry lacks established infrastructure and economies of scale, keeping per-unit costs high, while most of the global supply chain is concentrated in China, making it difficult for other regions to compete.
Overall, these barriers collectively impede the efficient scaling of trade in critical materials, highlighting the need for coordinated policy action, investment in market infrastructure, and the development of digital solutions to foster transparency and broader participation.
China’s Export Ban
The conditions shaping critical materials have been undergoing significant change. China began imposing export restrictions on critical materials in 2023, starting with controls on gallium and germanium in July, and expanding to include rare earth elements and graphite by December. These restrictions have continued into 2024 and 2025, with further updates and additions to the list of controlled materials. The measures have significantly impacted global supply chains, prompting the US and Europe to accelerate efforts to diversify their sources and develop digital marketplaces for critical materials.3
China's export ban on critical materials is likely to accelerate the growth of digital markets in the US and Europe by forcing these regions to diversify and strengthen their supply chains. With traditional sources disrupted, manufacturers and suppliers will increasingly turn to digital platforms to quickly identify alternative suppliers, including recyclers and smaller producers who previously had limited market access. These platforms can aggregate supply and demand, improve price transparency, and streamline transactions, making it easier for buyers and sellers to connect efficiently.
Additionally, the ban will encourage greater use of recycled and secondary materials, as digital marketplaces can facilitate connections between recyclers and manufacturers, helping to unlock new sources of supply. By centralizing real-time data on prices and inventory, digital platforms will also help reduce market opacity and volatility, enabling better decision-making for all participants. As a result, investment and innovation in digital infrastructure for critical materials are likely to increase, supporting the development of more resilient, transparent, and sustainable supply chains across the US and Europe.
Conclusion
Digital platforms hold the potential to enhance critical material markets, offering solutions to current inefficiencies and suboptimal scale. Realizing the full potential of digital platforms in these markets will require overcoming barriers. Market concentration and thin trading volumes, especially in secondary markets, have limited the scalability and effectiveness of digital solutions. The lack of robust infrastructure for collecting, processing, and certifying recycled materials has impeded progress. However, recent Chinese export restrictions are catalyzing change. The need to diversify supply chains and secure new sources of supply is likely to spur greater interest and incentives to establish and scale critical material marketplaces.
Sources
Reading this, it doesn’t feel like a window of opportunity for platform based models, but more like a stress test for decentralized supply chains.When do you think the recycling end of the chain will finally move beyond relying solely on policy incentives?