Litcius/Paper detail

Tailoring inkjet-printed PEDOT:PSS composition toward green, wearable device fabrication

Marina Galliani, Laura M. Ferrari, Guénaëlle Bouet, David Eglin, Esma Ismailova

2023APL Bioengineering25 citationsDOIOpen Access PDF

Abstract

Inkjet printing remains one of the most cost-efficient techniques for device prototyping and manufacturing, offering considerable freedom of digital design, non-contact, and additive fabrication. When developing novel wearable devices, a balanced approach is required between functional, user-safe materials and scalable manufacturing processes. Here, we propose a tailor-made ink formulation, based on non-hazardous materials, to develop green electronic devices aimed at interfacing with humans. We demonstrate that developed ink exhibits high-resolution inkjet printability, in line with theoretical prediction, on multiple wearable substrates. The ink's chemical composition ensures the pattern's enhanced electrical properties, mechanical flexibility, and stability in water. The cytocompatibility evaluations show no noxious effects from printed films in contact with human mesenchymal stem cells. Finally, we fabricated a printed wearable touch sensor on a non-woven fabric substrate, capable of tracking human steps. This is a step toward the development of green wearable electronics manufacturing, demonstrating a viable combination of materials and processes for biocompatible devices.

Topics & Concepts

InkwellInterfacingWearable technologyFabricationPEDOT:PSSMaterials scienceWearable computerSubstrate (aquarium)ElectronicsNanotechnologyFlexibility (engineering)Rapid prototypingPrinted circuit boardComputer scienceEmbedded systemLayer (electronics)Computer hardwareElectrical engineeringEngineeringMathematicsMedicineOperating systemPathologyGeologyStatisticsComposite materialOceanographyAlternative medicineAdvanced Sensor and Energy Harvesting MaterialsNanomaterials and Printing TechnologiesAdditive Manufacturing and 3D Printing Technologies