Self‐Powered and Imperceptible Electronic Tattoos Based on Silk Protein Nanofiber and Carbon Nanotubes for Human–Machine Interfaces (Adv. Energy Mater. 29/2021).

Each individual element on the skin acts as a primary interacting device for human-machine interfaces to read the tactile movements of a fingertip through triboelectric phenomena. Self-Powered and Imperceptible Electronic Tattoos Based on Silk Protein Nanofiber and Carbon Nanotubes for Human-Machine Interfaces (Adv. Keywords: electronic skin; human-machine interface; nanofibers; tactile sensors; triboelectric EN electronic skin human-machine interface nanofibers tactile sensors triboelectric 1 1 1 05/24/22 20210801 NES 210801 B Human-Machine Interfaces b In article number 2100801, Narendar Gogurla and Sunghwan Kim design an energy tattoo system by printing carbon nanotube electrodes on a silk protein nanofiber mat that can be imperceptibly interfaced with human skin. [Extracted from the article]