Other Elements and Materials

Metal electrolysis could support more efficient

Metal electrolysis could support more efficient
Mining News Pro - By mapping what is happening at the atomic level behind a particularly promising approach called metal electrolysis, researchers at the Massachusetts Institute of Technology and the SLAC National Accelerator Laboratory are taking the first steps into future solutions that could usher in more efficient, eco-friendly processes for the production of lithium, iron and cobalt, as well as aid the development of metal-air batteries.
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In a paper published in the journal Chemistry of Materials, the scientists explain that metal electrolysis is a process in which a metal oxide, the ore, is zapped with electricity to create pure metal with oxygen as the byproduct. That is the reaction they explored at the atomic level.

“Here, we aim to establish some basic understanding to predict the efficiency of electrochemical metal production and metal-air batteries from examining computed thermodynamic barriers for the conversion between metal and metal oxides,” Yang Shao-Horn, one of the study’s authors, said in a media statement.

The work of uncovering the elementary steps involved in metal electrolysis, however, was challenging because it was unclear what those steps were. This meant that the researchers had to figure out how to get from metal oxide to metal and oxygen.

The analyses were conducted with supercomputer simulations. “It’s like a sandbox of atoms, and then we play with them,” co-author Michal Bajdich said.

More specifically, the team explored different scenarios for the electrolysis of several metals. Each involved different catalysts or molecules that boost the speed of a reaction. The map that emerged is essentially a guide for designing the best catalysts for each different metal.

Since they focused only on pure metals, the next step for the researchers is to see what happens in more complex systems involving multiple metals such as those where sodium and lithium are present.

The new atomic-level understanding of these reactions could not only help engineers develop efficient electrochemical routes for metal production but also design more efficient metal-air batteries because charging metal-air batteries also involves electrolysis.


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