Tangible Media Group

BioLIG is a fabrication framework that functionalizes affordable and optimized bio-based substrates with a conventional CO2 laser to create highly conductive traces for sensors and circuits. To illustrate the framework, we first contribute five bio-based materials: three sheets (paper-like, fabric-like, plastic-like) and two paints (lignin-ink, chitosan-stain). A formal electrical characterization of our conductors highlight that they surpass activated charcoal, are on par with carbon black, and one ink is even comparable with the most common synthetic material used for laser-induced graphene. Then, we present three biodegradable coatings that ensure functionality and durability and balance protection with controlled degradation. Next, we build upon our sheets, paints, and coatings to form multifunctional biodegradable biocomposites and implement five end-to-end applications. Lastly, we define three strategies of how the framework supports a circular making culture. BioLIG enables accessible, fast, and bio-rapid prototyping, adding new directions for designing sustainable electronics with environmental integration.