Dynamic Network‑ and Microcellular Architecture‑Driven Biomass Elastomer toward Sustainable and Versatile Soft Electronics (IMAGE)

Shanghai Jiao Tong University Journal Center

Dynamic Network‑ and Microcellular Architecture‑Driven Biomass Elastomer toward Sustainable and Versatile Soft Electronics

Caption

  • Biomass-derived conductive elastomer featuring dynamic networks and microporous architecture enables ultralight and highly mechanosensitive soft electronics.
  • Micro-spring-like porous structure imparts excellent stretchability, superior resilience, and rapid and precise electrical responsiveness under subtle and large mechanical stimuli.
  • Intrinsic dynamic interactions enable efficient room temperature self-healing and full recyclability, promoting sustainable and scalable fabrication of advanced flexible electronics.

Credit

Shanqiu Liu*, Yi Shen, Yizhen Li, Yunjie Mo, Enze Yu, Taotao Ge, Ping Li*, Jingguo Li*.

Usage Restrictions

Credit must be given to the creator. Only noncommercial uses of the work are permitted. No derivatives or adaptations of the work are permitted.

License

CC BY-NC-ND

Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.