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Converting inorganic sulfur into degradable thermoplastics and adhesives by copolymerization with cyclic disulfides

Chemistry

Converting inorganic sulfur into degradable thermoplastics and adhesives by copolymerization with cyclic disulfides

Y. Deng, Z. Huang, et al.

This groundbreaking research by Yuanxin Deng, Zhengtie Huang, Ben L. Feringa, He Tian, Qi Zhang, and Da-Hui Qu reveals a sustainable method of converting elementary sulfur into sulfur-rich thermoplastics. Their innovative approach combines cyclic disulfides in a way that enhances mechanical properties and environmental friendliness. Discover the future of green plastics!

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Playback language: English
Abstract
Converting elementary sulfur into sulfur-rich polymers offers a sustainable alternative to fossil-fuel-based plastics. However, the low ring strain of S8 monomers hinders ring-opening polymerization (ROP) due to the lack of an enthalpic driving force, resulting in inherently unstable poly(sulfur). This study demonstrates that copolymerization with cyclic disulfides, such as 1,2-dithiolanes, provides a simple, energy-efficient method to transform elementary sulfur into sulfur-rich thermoplastics. This strategy combines two disulfide bond exchange-mediated ROPs to overcome poly(sulfur)'s thermodynamic instability. The modifiable sidechains of the cyclic disulfides allow for tailoring mechanical properties and functionalities like self-repair and degradability. This robust system offers a promising pathway for creating functional and environmentally friendly sulfur-rich plastics.
Publisher
Nature Communications
Published On
May 08, 2024
Authors
Yuanxin Deng, Zhengtie Huang, Ben L. Feringa, He Tian, Qi Zhang, Da-Hui Qu
Tags
sulfur-rich polymers
sustainable plastics
ring-opening polymerization
thermoplastic materials
disulfide copolymerization

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