Abstract
Wearable and implantable electronics (WIEs) are more and more important and attractive to the public, and they have had positive influences on all aspects of our lives. As a bridge between wearable electronics and their surrounding environment and users, sensors are core components of WIEs and determine the implementation of their many functions. Although the existing sensor technology has evolved to a very advanced level with the rapid progress of advanced materials and nanotechnology, most of them still need external power supply, like batteries, which could cause problems that are difficult to track, recycle, and miniaturize, as well as possible environmental pollution and health hazards. In the past decades, based upon piezoelectric, pyroelectric, and triboelectric effect, various kinds of nanogenerators (NGs) were proposed which are capable of responding to a variety of mechanical movements, such as breeze, body drive, muscle stretch, sound/ultrasound, noise, mechanical vibration, and blood flow, and they had been widely used as self-powered sensors and micro-nanoenergy and blue energy harvesters. This review focuses on the applications of self-powered generators as implantable and wearable sensors in health monitoring, biosensor, human-computer interaction, and other fields. The existing problems and future prospects are also discussed.
Highlights
In the past decades, wearable and implantable electronics (WIEs) have experienced a period of rapid development and are more and more important and attractive to the public [1,2,3,4,5,6]
The battery occupies most of the volume and weight, and periodic replacement of it will lead to electronic waste, physical burden, and financial strain to patients
A flexible hybrid device basing on a single-electrode triboelectric nanogenerator (TENG) and a piezoelectric nanogenerator (PENG) had been fabricated as shown in Figure 5(c) [116]
Summary
Wearable and implantable electronics (WIEs) have experienced a period of rapid development and are more and more important and attractive to the public [1,2,3,4,5,6]. As the core components of WIEs, practical mobile sensors require integration ability with accessories and fabrics such as bracelets, watches, eyeglasses, necklace, or the implantation into the human body [11, 12] Their developments still need to overcome lots of challenges, such as how to reduce weight and size. Based on electricity generation mode, namely, piezoelectric nanogenerator (PENG), triboelectric nanogenerator (TENG) [17], and pyroelectric nanogenerator (PYENG) [18] They have been widely used as micro-nanoenergy or blue energy harvesters and self-powered sensors [19,20,21,22,23,24,25]. The existing problems and future prospects were discussed
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