News Release 5-Aug-2024

Innovative approach for synthesizing common plastics using remote spark discharge

Peer-Reviewed Publication

University of Tsukuba

Generation of radicals by spark discharge from Tesla coil as initiation reactions — **image:**
**Polyacetylene film in an argon atmosphere with irradiation of spark discharge from a Tesla coil**
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Credit: University of Tsukuba

Tsukuba, Japan—Polymers such as polystyrene and acrylic resins are used in various plastic products, including food containers, packaging materials, and thermal cases. Traditionally, metal catalysts and radical polymerization initiators are used to synthesize these polymers.

This research team has previously developed several polymerization techniques for conductive polymers. In their latest study, they introduced a novel method for polymer synthesis which involves generating monomer radicals through a remote spark discharge treatment using a Tesla coil, which is a high-voltage, high-frequency generator. These radicals then act as polymerization initiators. The Tesla coil's capability to generate a powerful discharge without a counter electrode enables the spark discharge treatment to be conducted externally to the reaction vessel. Using this method, the researchers have successfully synthesized high-purity polystyrene and polymethyl methacrylate (acrylate), both extensively used in food containers.

Moreover, the team has discovered a new method for synthesizing polymers by applying a similar spark discharge treatment to conjugated polymers. They use the "soliton" generated by the treatment as an initiator. This innovative approach is a first in synthetic polymer chemistry and opens new avenues for material synthesis using electromagnetic waves.

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This work was supported by Japan Science and Technology Agency (JST), the establishment of university fellowships towards the creation of science technology innovation, Grant Number JPMJFS2106, and Japan Society for the Promotion of Science (JSPS), Grants-in-Aid for Scientific Research (No. 23K04848).

_{Original Paper}

Title of original paper:
Spark Discharge-Initiated Radical Polymerization

Journal:
Next Materials

DOI:
10.1016/j.nxmate.2024.100326

_{Correspondence}

Associate Professor GOTO Hiromasa
Institute of Pure and Applied Sciences, University of Tsukuba

_{Related Link}

Institute of Pure and Applied Sciences

Journal

Next Materials

DOI

10.1016/j.nxmate.2024.100326

Article Title

Spark discharge-initiated radical polymerization

Article Publication Date

31-Jul-2024

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