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Advances in carbon nanotube applications enhance battery dry process

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Technological breakthrough in carbon nanotube applications for battery dry process
While conventional carbon nanotubes (left) are poorly dispersed and easily aggregate. Carbon nanotubes developed by KERI (right) are made in a highly dispersible powder form to minimize agglomeration and facilitate mixing with other materials in dry processes. Credit: Korea Electrotechnology Research Institute

A research team led by Dr. Joong Tark Han at the Korea Electrotechnology Research Institute (KERI) Nano Hybrid Technology Research Center has developed the world’s first technology for producing highly dispersible carbon nanotube (CNT) powder, which can be easily applicable to environmentally-friendly secondary battery dry processes.

CNTs are a novel material with a tensile strength 100 times that of steel and an electrical conductivity comparable to that of copper. They are formed by hexagonal carbon chains in long cylindrical shapes. CNTs are one-dimensional nanomaterials that are more flexible and electrically conductive than carbon black, which is used as a conductor in secondary batteries.

When used as a conductive additive in secondary batteries, the addition of CNTs can significantly increase the energy density.

However, CNTs have a strong tendency to aggregate with each other, resulting in a tangled structure that does not mix well with other materials in the secondary battery, such as binders and active materials. Especially in the dry process, it is necessary to mix CNTs uniformly with other materials in solvent-free conditions, which has been one of the challenges for the battery industry.

Technological breakthrough in carbon nanotube applications for battery dry process
The team led by Dr. Joong Tark Han (front row, center) has developed a technology to produce carbon nanotubes in powder form for high dispersibility. Credit: Korea Electrotechnology Research Institute

Dr. Han’s team achieved a breakthrough by developing a technology that minimizes aggregation and facilitates dispersion in dry processes by producing highly dispersible CNTs powder. After years of research, the team successfully controlled the small bundles of CNTs to remain dispersed in powder form.

This opens the way to manufacturing high-capacity cells by making conductors from long CNTs with a one-dimensional structure, even in a challenging dry process. Highly conductive CNTs that are well dispersed without the use of solvents can make a significant contribution to the performance of secondary batteries by electrically connecting the other materials inside.

“The dry process is environmentally friendly as it does not use toxic solvents, eliminates the need for solvent recovery, simplifies the process, and reduces production costs. That is why this technology is drawing attention from global electric vehicle manufacturers,” said Dr. Han.

“We’re the first in the world to achieve the effective dispersion of CNTs to create conductive additives in dry processes. This technology will greatly aid in securing a significant technological lead in secondary battery technology.”

Based on this achievement, KERI has already filed a domestic patent application and is validating the “high-dispersibility CNT Powder production technology” for various applications, including high-capacity thick-film anodes/cathodes.

In addition, Dr. Han expects that this achievement will attract attention from related industries such as lithium-sulfur batteries and all-solid-state batteries, which require a dry process as next-generation batteries, and plans to identify demanding companies to transfer the technology.

Provided by
National Research Council of Science and Technology


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Advances in carbon nanotube applications enhance battery dry process (2024, November 26)
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