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A deep dive into polyimides for high-frequency wireless telecommunications

July 26, 2024
in Social Science
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Paving the Way to Better Insulating Materials for 5G and 6G
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As 5G technologies continue to evolve, scientists and engineers are already exploring new ways to turn things up a notch for 6G. One of the biggest challenges to address in both 5G and 6G is the many detrimental effects that operating at extremely high frequencies has on wireless communications. At frequencies nearing the terahertz range, problems such as signal attenuation and interference are more prominent, and maintaining signal integrity becomes much harder.

Paving the Way to Better Insulating Materials for 5G and 6G

Credit: Tokyo Tech

As 5G technologies continue to evolve, scientists and engineers are already exploring new ways to turn things up a notch for 6G. One of the biggest challenges to address in both 5G and 6G is the many detrimental effects that operating at extremely high frequencies has on wireless communications. At frequencies nearing the terahertz range, problems such as signal attenuation and interference are more prominent, and maintaining signal integrity becomes much harder.

Some of these issues can be greatly mitigated by using insulating materials with exceptional dielectric properties. Glass- and ceramic-based insulating materials currently dominate the scene, but their high cost and fabrication complexity render them largely unsuitable for mass-produced devices, which are needed for high-end 6G. Could polymeric materials be a better alternative?

In an effort to answer this question, a research team from Tokyo Institute of Technology conducted a study on polyimides (PIs), which are gaining traction as materials suitable for high-frequency operation. Led by Professor Shinji Ando and including Haonan Liu, the team’s latest paper was published in Applied Physics Letters on June 6th, 2024.

“Polyimides stand out because of their excellent thermal stability, mechanical toughness, flexibility, lightweight, and favorable dielectric properties. However, the correlation between the molecular structure of PIs and their dielectric properties has not yet been fully established,” explains Ando. “Existing studies on the dielectric properties of PIs in the GHz frequency range are limited to below 60 GHz, which poses a severe hindrance to the design of pointers for next-generation dielectric PI materials.”

The research team sought to address this knowledge gap by measuring and analyzing the dielectric properties of 11 PIs with different types of molecular structures. To this end, they used a device called a Fabry–Pérot resonator, which is currently the only known tool suitable for measuring the dielectric properties of thin films in the 110–330 GHz range with a low dissipation factor.

Using the resonator, the researchers measured the dielectric constant (Dk) and the dissipation factor (Df) of the polyimides. To clarify, both Dk and Df are representative of a material’s ability to store energy in different ways, and low values are critical for minimizing signal loss and maintaining signal integrity at high frequencies.

All of the 11 PIs showed rather typical Dk and Df curves, exhibiting a continuous decrease in these values as frequency increased. Notably, the PIs that contained higher fluorine content exhibited lower Dk values. In particular, a perfluorinated polyimide exhibited a significantly lower Dk and smaller Df than the other polyimides, and the frequency dependence of Dk and Df is also very small. Another particularly interesting discovery was that the increase in Df was negatively correlated with the polar fraction—that is, the percentage of the polymer’s mass made up of polar functional groups.

Taken together, the results of this study shed some much-needed light on the dielectric qualities of PIs. This data could eventually pave the way to faster and more reliable telecommunications by enabling engineers to tap into the terahertz range while overcoming the associated challenges. Of course, more efforts will be needed to identify the best type of PIs for these purposes. “Spectroscopic studies in the THz range will help us indirectly infer the origins of the dielectric responses of different structural PIs at high frequencies, remarks Ando. “Our findings will hopefully be beneficial for developing high-performance polymer-based insulating materials for 6G technologies,” concludes Ando, with eyes on the future.

 

 

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About Tokyo Institute of Technology

Tokyo Tech stands at the forefront of research and higher education as the leading university for science and technology in Japan. Tokyo Tech researchers excel in fields ranging from materials science to biology, computer science, and physics. Founded in 1881, Tokyo Tech hosts over 10,000 undergraduate and graduate students per year, who develop into scientific leaders and some of the most sought-after engineers in industry. Embodying the Japanese philosophy of “monotsukuri,” meaning “technical ingenuity and innovation,” the Tokyo Tech community strives to contribute to society through high-impact research.

 

Institute of Science Tokyo (Science Tokyo) will be established on October 1, 2024, following the merger between Tokyo Medical and Dental University (TMDU) and Tokyo Institute of Technology (Tokyo Tech), with the mission of “Advancing science and human wellbeing to create value for and with society.”



Journal

Applied Physics Letters

DOI

10.1063/5.0205692

Method of Research

Experimental study

Subject of Research

Not applicable

Article Title

Frequency-dependent dielectric properties of aromatic polyimides in the 25–330 GHz range

Article Publication Date

6-Jun-2024

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