Researchers at the QUILL Research Centre (Queen's University Ionic Liquid Laboratories) are discovering how ionic liquid technology can be used in the development and .
The world’s supply of rare earth metals is dwindling. They need to be mined, which is harmful to the environment, and recycling rates are low and involve challenging separation processes. To reduce the carbon footprint of battery manufacturing, researchers at QUILL have been working on the?recovery of rare earth metals from end-of-life magnets and batteries.
QUILL brings together researchers from the fields of applied chemistry and chemical engineering. By?combining their knowledge and resources within the area of ionic liquids, they can build on their expertise, provide new sustainable energy solutions, and take them through to technology readiness levels.
QUILL is also working closely with?long-term partners in the energy industry. This includes multinational, global companies such as Chevron and Petronas who have previously worked with Queen’s on removing toxic heavy metals from petrochemical processing.
Researchers have created an environmentally benign, ionic liquids-based method to separate rare earth metals.
The method?separates end-of-life magnets back into pure metals to , reducing the mining of rare earth metals and the carbon footprint associated with transporting them. This technology has been patented and is currently in use by industry partners.
We are also developing a?new type of redox flow battery for . Redox flow batteries can store large amounts of energy in their electrolytes and have a lifespan of more than 25 years, offering clear advantages over lithium-ion batteries.
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