Litcius/Paper detail

Advanced Nanomaterials, Printing Processes, and Applications for Flexible Hybrid Electronics

Sehyun Park, Hojoong Kim, Jong‐Hoon Kim, Woon‐Hong Yeo

2020Materials50 citationsDOIOpen Access PDF

Abstract

Recent advances in nanomaterial preparation and printing technologies provide unique opportunities to develop flexible hybrid electronics (FHE) for various healthcare applications. Unlike the costly, multi-step, and error-prone cleanroom-based nano-microfabrication, the printing of nanomaterials offers advantages, including cost-effectiveness, high-throughput, reliability, and scalability. Here, this review summarizes the most up-to-date nanomaterials, methods of nanomaterial printing, and system integrations to fabricate advanced FHE in wearable and implantable applications. Detailed strategies to enhance the resolution, uniformity, flexibility, and durability of nanomaterial printing are summarized. We discuss the sensitivity, functionality, and performance of recently reported printed electronics with application areas in wearable sensors, prosthetics, and health monitoring implantable systems. Collectively, the main contribution of this paper is in the summary of the essential requirements of material properties, mechanisms for printed sensors, and electronics.

Topics & Concepts

CleanroomFlexibility (engineering)ElectronicsWearable technologyPrinted electronicsNanotechnologyWearable computerNanomaterialsScalabilityMicrofabricationComputer scienceMaterials scienceEngineeringEmbedded systemFabricationElectrical engineeringMedicineStatisticsDatabaseMathematicsAlternative medicinePathologyAdvanced Sensor and Energy Harvesting MaterialsNanomaterials and Printing TechnologiesAdditive Manufacturing and 3D Printing Technologies