Issue 20, 2024

Encapsulated stretchable amphibious strain sensors

Abstract

Soft and stretchable strain sensors have found wide applications in health monitoring, motion tracking, and robotic sensing. There is a growing demand for strain sensors in amphibious environments, such as implantable sensors, wearable sensors for swimmers/divers, and underwater robotic sensors. However, developing a sensitive, stretchable, and robust amphibious strain sensor remains challenging. This work presents an encapsulated stretchable amphibious strain sensor. The conductive layer, made of silver nanowires embedded below the surface of polydimethylsiloxane, was sandwiched by two layers of thermoplastic polyurethane. Periodic sharp cuts were introduced to change the direction of flow from across the sensor to along the conductive path defined by the opening cracks. The crack advancing and opening is controlled by a unique combination of weak/strong interfaces within the sandwich structure. The cut design and the interfacial interactions between the layers were investigated. The strain sensor exhibited a high gauge factor up to 289, a linear sensing response, a fast response time (53 ms), excellent robustness against over-strain, and stability after 16 000 loading cycles and 20 days in an aqueous saline solution. The functionality of this amphibious strain sensor was demonstrated by tracking the motion of a robotic fish, undertaking language recognition underwater, and monitoring the blood pressure of a porcine aorta. This illustrates the promising potential for this strain sensor for both underwater use and surgically implantable applications.

Graphical abstract: Encapsulated stretchable amphibious strain sensors

Supplementary files

Article information

Article type
Communication
Submitted
13 Jun 2024
Accepted
26 Jul 2024
First published
01 Aug 2024
This article is Open Access
Creative Commons BY-NC license

Mater. Horiz., 2024,11, 5070-5080

Encapsulated stretchable amphibious strain sensors

S. Wu, D. Kim, X. Tang, M. W. King and Y. Zhu, Mater. Horiz., 2024, 11, 5070 DOI: 10.1039/D4MH00757C

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