Nanometer-Thick Electromagentic Shielding Film Developed Using MXene

(Click here for full view.) Uniform Nanometer-thick MXene films can be used as electromagnetic shields in flexible electronics and 5G telecommunication devices. Credit: Korea Institute of Science and Technology (KIST)

Uniform nanometer-thick MXene* films can be used as electromagnetic shields in flexible electronics and 5G telecommunication devices.

A Korean research team has developed a technology to fabricate an ultrathin material for electromagnetic interference(EMI) shielding. The research team, led by Koo Chong-Min, the head of the Materials Architecturing Research Center at the Korea Institute of Science and Technology (KIST, Acting President Yoon Seok-jin), announced that it had developed an ultrathin nanometer-thick film, using MXene, a new two-dimensional nanomaterial for EMI shielding. The research was jointly conducted with a team led by Professor Kim Sang-ouk of the Department of Materials Science and Engineering at Korea Advanced Institute of Science and Technology (KAIST, President: Shin Sung-chul) and a research team led by Professor Yury Gogotsi from Drexel University, USA.

Micrometer thick MXene films with high electrical conductivity, reported by Koo Chong-min in 2016, presented outstanding electromagnetic interference shielding. However, there were no technologies that could be used to directly apply MXene to highly integrated electronic devices, such as h5G communications and mobile devices.

The KIST-KAIST-Drexel joint research team used self-assembly technique to fabricate an ultrathin MXene film with uniform atomic-scale thickness. MXene film is reported to have exceptional absolute electromagnetic shielding performance (shielding effectiveness relative to thickness and density) that is far greater than that of any other material reported to date.

By adding a volatile solution onto the surface of a diluted MXene solution, the research team was able to induce floating MXene flakes. Vertical convection, resulting from differences in surface tension, caused the self-assembly of the micron-sized MXene flakes, thereby creating a large-size ultrathin MXene film with uniform atomic-scale thickness. The research team found that MXene films layered to reach 55 nm in thickness provide 99% electromagnetic shielding efficiency. Ultrathin MXene films fabricated using the team’s new technology can easily be transferred onto any substrate and layered multiple times for customized thickness, transmittance, and surface resistance.

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