The minerals include:
This is problematic for sourcing departments and requires companies and their entire supply chains to properly document the source of these hard-to-find metals. The process of complete transparency along the supply chain requires both time and substantial effort. For the past eight years, electronics manufacturers have been searching for a solution to this problem, and perhaps one is on the way — carbon nanomaterials.
According to a study by the Chalmers University of Technology in Gothenburg, Sweden, carbon nanomaterials like graphene could be a viable replacement for rare metals like tin and tungsten. Researchers discovered that a new set of carbon-based materials carried similar properties of metals. These materials could replace metals that are hard to find, mine, and recycle with a much more attainable alternative.
The research consisted of a study of 14 metals, of which 13 could potentially be replaced with this type of technology-based solution.
“Imagine being able to replace scarce metals with carbon,” says Chalmers professor Björn Sandén. “Extracting the carbon from biomass would create a natural cycle. Then you don´t have to worry about recycling your computer, you can just put in on fire! Or, a little less utopian — at least it becomes significantly easier to recycle the remaining metals.”
Carbon nanomaterials consist solely or mainly of carbon. Like conflict minerals, they’re strong and very ductile. While it would be a welcome development if these nanomaterials could be used in lieu of scarce metals, the industry needs more research on the subject — particularly their environmental impact.
Most efforts to overcome conflict mineral supply chain issues have revolved around recycling of the materials, and the idea of possibly replacing the materials altogether is innovative and potentially groundbreaking. While these carbon nanomaterials won’t fix conflict mineral issues overnight, they do have the potential to provide relief to a rapidly growing industry already struggling with component shortages.