Should flexible body-patchable energy storage materials be used in biomedical systems?

Therefore, flexible body-patchable energy storage materials should achieve good adhesiveness, mechanical durability, and sensitive response towards body movement before they can be applied to biomedical systems such as smart hair, medical/cosmetic patches, healthcare screens, and glove/fingernail and fitness/motion trackers.

Which materials are used in energy storage devices?

Typically, functional materials including carbon, metals and metal oxides, biopolymers, and composites are used as electrode materials in energy storage devices powering biomedical systems ( Fig. 2) [ , , , ].

What is a stretchable body-integrated energy system?

The system is applied to power wearable electronics and implantable pulsed electrical stimulation. Stretchable body-integrated energy systems are urgently needed due to the rapid development of wearable and implantable electronic devices.

What are biomedical energy storage devices?

Biomedical energy storage devices have a unique interface between the material/device and human skin/tissue, which differs from the conventional interfaces applied to mobile, electrical vehicle, and renewable energy fields.

What is a stretchable energy supply system?

A stretchable energy supply system integrating wireless charging, energy storage and switching circuit is constructed. Mechanical and electrical properties of the system under various deformations are studied using finite element analysis. The system is applied to power wearable electronics and implantable pulsed electrical stimulation.

Are energy storage devices durable?

Most wearable and biomedical devices are used for long periods and require multiple instances of power supply. Thus, the durability of energy storage devices is considered to be a key parameter for both skin-patchable and implantable applications.