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Nature's Blueprint in Bioinspired Materials for Robotics

Yeonwook Roh, Youngseok Lee, Daseul Lim, Dohyeon Gong, Suhyeon Hwang, Minji Kang, Dohyung Kim, Junggwang Cho, Gibeom Kwon, Daeshik Kang, Seungyong Han, Seung Hwan Ko

2023Advanced Functional Materials47 citationsDOI

Abstract

Abstract Soft robotics, an emerging field that focuses on the development of robots utilizing soft, flexible, and deformable materials, is revolutionizing traditional robotics (reliant on rigid materials and motors) and broadening its range of applications and potential uses. In addition, by emulating the structure, function, and characteristics of biological systems, bioinspired materials are facilitating significant progress in a diverse array of soft robotic applications. This review offers an overview of bioinspired materials employed in soft robotics, exploring their potential applications, challenges, and future research directions. For an intuitive understanding, soft robots based on the primary abilities required and the habitats (terrestrial, aquatic, aerial) of the animals and plants they mimic are categorized. Furthermore, real‐world applications of developed soft robots in everyday human life are presented. The novel category classification and comprehensive analysis presented in this review provide insights into the development of soft robotic systems with the potential to transform various industries and enhance quality of life.

Topics & Concepts

Soft roboticsRoboticsBlueprintArtificial intelligenceSoft materialsRobotComputer scienceBiomimeticsHuman–computer interactionNanotechnologySystems engineeringEngineeringMechanical engineeringMaterials scienceMicro and Nano RoboticsAdvanced Materials and MechanicsAdvanced Sensor and Energy Harvesting Materials
Nature's Blueprint in Bioinspired Materials for Robotics | Litcius