Litcius/Paper detail

A Guide to Printed Stretchable Conductors

Tushar Sakorikar, Nikolas Mihaliak, Febby Krisnadi, Jinwoo Ma, Tae‐il Kim, Minsik Kong, Omar Awartani, Michael D. Dickey

2024Chemical Reviews54 citationsDOI

Abstract

Printing of stretchable conductors enables the fabrication and rapid prototyping of stretchable electronic devices. For such applications, there are often specific process and material requirements such as print resolution, maximum strain, and electrical/ionic conductivity. This review highlights common printing methods and compatible inks that produce stretchable conductors. The review compares the capabilities, benefits, and limitations of each approach to help guide the selection of a suitable process and ink for an intended application. We also discuss methods to design and fabricate ink composites with the desired material properties (e.g., electrical conductance, viscosity, printability). This guide should help inform ongoing and future efforts to create soft, stretchable electronic devices for wearables, soft robots, e-skins, and sensors.

Topics & Concepts

InkwellNanotechnologyElectrical conductorFabricationWearable technologySoft materialsWearable computerStretchable electronicsProcess (computing)Rapid prototyping3D printingMaterials scienceComputer scienceElectronicsElectrical engineeringComposite materialEngineeringEmbedded systemOperating systemAlternative medicinePathologyMedicineAdvanced Sensor and Energy Harvesting MaterialsNanomaterials and Printing TechnologiesAdvanced Materials and Mechanics