All-in-one strain-triboelectric sensors based on environment-friendly ionic hydrogel for wearable sensing and underwater soft robotic grasping

• Published in: Nano energy Vol. 111; p. 108387
• Main Authors: Qu, Juntian, Yuan, Qiangjing, Li, Zhenkun, Wang, Ziqiang, Xu, Feng, Fan, Qigao, Zhang, Min, Qian, Xiang, Wang, Xueqian, Wang, Xiaohao, Xu, Minyi
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 15.06.2023
• Subjects: Ionic hydrogel; Soft robotic grasping; Strain-triboelectric sensors; Underwater sensing; Wearable skin; Underwater sensing; Wearable skin; Soft robotic grasping; Ionic hydrogel; Strain-triboelectric sensors
• ISSN: 2211-2855
• DOI: 10.1016/j.nanoen.2023.108387

Hydrogel-based wearable devices and soft robotics have become a research hotspot. However, due to hydrogels' poor anti-dehydration and susceptibility to breakage, issues of recycling and waste stream contamination risks have severely limited large-scale applications. Moreover, the practical monitoring of robotic grasping is rather limited due to the complex underwater environment. In this work, an environment-friendly high-performance ionic hydrogel with fracture toughness (146.5 kJ/m3) capable of strain and triboelectric sensing is developed. As a strain sensor, it owns good sensitivity (gauge factor: 4.30), a quick response time (70 ms), outstanding stability (∼ 1000 cycles), low-temperature resistance, and well reproducibility (within one month). The hydrogel was also employed in the development of a flexible triboelectric sensor (200 % strain), which could respond sensitively to abundant types of materials (including water droplets). Due to these advantageous properties, the developed strain-triboelectric sensors can detect real-time human motion and grasping states of the soft gripper simultaneously. Thanks to the good degradability (∼ 12 h), it may well address potential problems of high cost and risks during the underwater recycling process. To summarize, the developed all-in-one strain-triboelectric sensors have demonstrated great potentials in enhancing the actively perceiving capabilities during underwater soft robotic grasping. [Display omitted] •All-in-one strain-triboelectric sensors for wearable sensing and underwater soft robotic grasping.•The strain sensor owns excellent performance against issues of recycling and waste stream contamination risks.•The developed dual-mode hydrogel-based wearable skin presents a delicate perception of wrist movement and touch position.•The unstable states of underwater gripper can be detected via the integrated sensors, preventing potential failure grasping.