Our first independent research work was published in Nature Communications

Our paper, “Strain-programmable liquid metal fibers for anti-interference electronic textiles,” was published in Nature Communications.

This work develops strain-programmable liquid metal composite fibers that turn deformation-induced interference into a tunable materials-design feature. By programming pre-strain and liquid metal composition, the fibers support negative, hybrid, or positive strain-resistance behaviors, enabling bidirectional strain sensing, strain-invariant circuits, energy harvesting, wireless communication, and thermal management for robust electronic textiles.

This study is the first independent research work from the Lin Research Group. Read more on the publication page or at Nature Communications.