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University of Leicester researchers develop technique for sustainably recovering battery-grade metal oxides from black mass using cooking oil and water

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Researchers at the University of Leicester have developed an innovative way of recovering valuable battery-grade metal oxides from crushed batteries by using nanoemulsions created from a trace of cooking oil in water. An open-access paper on their work is published in the journal RSC Sustainability.

Research has shown that using ultrasound can create nano-droplets of oil that are stable for weeks. Oil nano-droplets are found to purify battery waste commonly known as ‘black mass’ as it contains a mixture of carbon (graphite) and valuable lithium, nickel and cobalt metal oxides (NMC). The oil nano-droplets stick to the surface of the carbon, acting as a ‘glue’ to bind hydrophobic graphite particles together to form large oil-graphite conglomerates which float on water, leaving the valuable and hydrophilic lithium metal oxides untouched. The oil-graphite conglomerate can simply be skimmed off leaving pure metal oxides.

Current recycling techniques use a combination of furnace heat treatment to burn off the undesired graphite, thereby increasing the CO2 footprint of the EV value chain, as well as concentrated corrosive acids which take valuable battery-grade metal oxides all the way back to the lower-valued battery precursor materials from which the battery was first made.

The Leicester-developed emulsion technique allows short-loop recycling of lithium-ion batteries. The battery-grade crystalline structure of the recovered material is not destroyed in this process and allows the remanufacturing of the recovered material directly back into new battery cells, unlike pyro/hydrometallurgical methods. This could potentially make the battery supply chain more sustainable and cheaper.

The use of batteries for electric vehicles and energy storage leads to a sustainable future only if the recycling pathway is green and cost-efficient. Globally, there are an estimated 40 million electric vehicles (EVs), and there are approximately 10 billion active mobile phones, laptops and tablets worldwide, all powered by lithium-ion batteries. However, the lack of regulations means lithium-ion battery packs are not designed to be recycled.

Resources

  • Chunhong Lei, Karl S. Ryder, Andrew P. Abbott, and Jake M. Yang (2025) Using ultrasonic oil–water nano-emulsions to purify lithium-ion battery black mass, RSC Sustain. doi: 10.1039/D4SU00771A

Researchers at the University of Leicester have developed an innovative way of recovering valuable battery-grade metal oxides from crushed batteries by using nanoemulsions created from a trace of cooking oil in water. An open-access paper on their work is published in the journal RSC Sustainability.

Research has shown that using ultrasound can create nano-droplets of oil that are stable for weeks. Oil nano-droplets are found to purify battery waste commonly known as ‘black mass’ as it contains a mixture of carbon (graphite) and valuable lithium, nickel and cobalt metal oxides (NMC). The oil nano-droplets stick to the surface of the carbon, acting as a ‘glue’ to bind hydrophobic graphite particles together to form large oil-graphite conglomerates which float on water, leaving the valuable and hydrophilic lithium metal oxides untouched. The oil-graphite conglomerate can simply be skimmed off leaving pure metal oxides.

Current recycling techniques use a combination of furnace heat treatment to burn off the undesired graphite, thereby increasing the CO2 footprint of the EV value chain, as well as concentrated corrosive acids which take valuable battery-grade metal oxides all the way back to the lower-valued battery precursor materials from which the battery was first made.

The Leicester-developed emulsion technique allows short-loop recycling of lithium-ion batteries. The battery-grade crystalline structure of the recovered material is not destroyed in this process and allows the remanufacturing of the recovered material directly back into new battery cells, unlike pyro/hydrometallurgical methods. This could potentially make the battery supply chain more sustainable and cheaper.

The use of batteries for electric vehicles and energy storage leads to a sustainable future only if the recycling pathway is green and cost-efficient. Globally, there are an estimated 40 million electric vehicles (EVs), and there are approximately 10 billion active mobile phones, laptops and tablets worldwide, all powered by lithium-ion batteries. However, the lack of regulations means lithium-ion battery packs are not designed to be recycled.

Resources

  • Chunhong Lei, Karl S. Ryder, Andrew P. Abbott, and Jake M. Yang (2025) Using ultrasonic oil–water nano-emulsions to purify lithium-ion battery black mass, RSC Sustain. doi: 10.1039/D4SU00771A

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