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Towards robust flexible electronics: Fabrication approaches and ongoing research challenges

Babatunde Olamide Omiyale, Akinola Ogbeyemi, Muhammad Awais Ashraf, Ki‐Young Song, Wenjun Chris Zhang

2025Sensors and Actuators A Physical18 citationsDOIOpen Access PDF

Abstract

Flexible electronics (FEs) revolutionize wearable technology, medical and bio-integrated devices, and robotics systems, allowing soft, lightweight systems to conform to complex surfaces and dynamic environments. They are crucial for soft robots, wearable robots, and bio-integrated systems. However, designing them to be efficient and practically useful to a targeted application has proved challenging. Multiple definitions of flexible electronics components exist in the literature, each representing varying levels of guidelines for the design and construction of stretchable circuits for robots and bio-integrated systems. This paper presents a comprehensive definition of FEs components, intending to provide scientists and engineers with a foundational understanding of these components for their practical design and construction. In robotic applications, one key advantage of FE is its ability to enhance robot traits, making them softer, smarter, and more sensitive, with qualities comparable to those of humans. Despite its advantages, this technology still faces several challenges, such as ensuring sensor precision, scaling up from prototypes to mass production, and integrating FE into soft robots without compromising their flexibility. For such soft robots, it is crucial to have lightweight, durable power sources and the capability to process large amounts of sensor data in real-time to facilitate safe human interaction. The key challenges in FEs include maintaining both electrical conductivity and stretchability, as well as developing materials that are biocompatible and biodegradable for use in medical and wearable robotics. This paper reviews recent state-of-the-art advancements in the fabrication of micro- and nano-scale FE components and highlights key research issues, proposing directions for future research to bridge the knowledge gaps.

Topics & Concepts

EngineeringSystems engineeringEngineering researchEngineering managementManufacturing engineeringFabricationComputer scienceResearch councilWork (physics)Software engineeringTechnology transferEngineering ethicsAdvanced Sensor and Energy Harvesting MaterialsNeuroscience and Neural EngineeringConducting polymers and applications
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