Monolithic MWCNT-hyperelastic elastomer based electronic skin with ultra-high stretchability for human health monitoring

This research reports developing and applying multi-walled carbon nanotube (MWCNT) embedded monolithic hyperelastic elastomeric sponge-based wearable electronic skin (e-skin) with ultra-high stretchability for human activity monitoring. The e-skin was fabricated by soaking conductive, MWCNT-based ink in a porous water-resistant sponge that was developed from an Ecoflex-NaCl combination followed by a salt dissolution technique. Material characterization studies revealed uniform distribution of MWCNTs inside the pores of the e-skin and adhesion of the MWCNTs to the sponge matrix. Electrical characterization results indicated a stretching span of 350% with minimal hysteresis and a fast dynamic response that was twice as high as reported compared to non-monolithic/ sandwiched MWCNT-elastomer structures. In addition, the sensor displayed excellent drift response, resolution of 1% strain at lower stretching limits, and repeatability of up to 10000 stretch-release cycles. The developed e-skin showed