Researchers at Swansea College, in collaboration with Wuhan College of Expertise, Shenzhen College, have developed a pioneering method for producing large-scale graphene present collectors.
This breakthrough guarantees to considerably improve the protection and efficiency of lithium-ion batteries (LIBs), addressing a essential problem in power storage expertise.
Printed in Nature Chemical Engineering, the examine particulars the primary profitable protocol for fabricating defect-free graphene foils on a business scale. These foils supply extraordinary thermal conductivity—as much as 1,400.8 W m–1 Okay–1—practically ten instances increased than conventional copper and aluminum present collectors utilized in LIBs.
“This is a significant step forward for battery technology,” mentioned Dr. Rui Tan, co-lead writer from Swansea College. “Our method allows for the production of graphene current collectors at a scale and quality that can be readily integrated into commercial battery manufacturing. This not only improves battery safety by efficiently managing heat but also enhances energy density and longevity.”
One of the crucial urgent considerations within the improvement of high-energy LIBs, particularly these utilized in electrical automobiles, is thermal runaway—a harmful state of affairs the place extreme warmth results in battery failure, usually leading to fires or explosions. These graphene present collectors are designed to mitigate this threat by effectively dissipating warmth and stopping the exothermic reactions that result in thermal runaway.
“Our dense, aligned graphene structure provides a robust barrier against the formation of flammable gases and prevents oxygen from permeating the battery cells, which is crucial for avoiding catastrophic failures,” defined Dr. Jinlong Yang, co-lead writer from Shenzhen College.
The newly developed course of isn’t just a laboratory success however a scalable resolution, able to producing graphene foils in lengths starting from meters to kilometers. In a big demonstration of its potential, the researchers produced a 200-meter-long graphene foil with a thickness of 17 micrometers. This foil retained excessive electrical conductivity even after being bent over 100,000 instances, making it preferrred to be used in versatile electronics and different superior functions.
This new method additionally permits for the manufacturing of graphene foils with customizable thicknesses, which may result in much more environment friendly and safer batteries.
This innovation may have wide-reaching implications for the way forward for power storage, notably in electrical automobiles and renewable power techniques, the place security and effectivity are paramount.
This worldwide collaborative analysis group led by Prof Liqiang Mai and Prof Daping He from Wuhan College of expertise, Dr. Jinlong Yang from Shenzhen College and Dr. Rui Tan from Swansea College is continuous to refine their course of, with ongoing efforts to cut back the thickness of the graphene foils and additional improve their mechanical properties, additionally exploring this new materials past Li-ion batteries, similar to redox move batteries and sodium-ion batteries with the help from Professor Serena Margodonna’s group at Swansea College.
Extra data:
Lun Li et al, Massive-scale present collectors for regulating warmth switch and enhancing battery security, Nature Chemical Engineering (2024). DOI: 10.1038/s44286-024-00103-8
Swansea College
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Scalable graphene expertise may considerably improve battery security and efficiency (2024, August 29)
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