Abstract
Triboelectric nanogenerators (TENGs) are a promising renewable energy technology. Many applications have been successfully demonstrated, such as self-powered Internet-of-Things sensors and many wearables, and those portable power source devices are useful in daily life due to their light weight, cost effectiveness, and high power conversion. To boost TENG performance, many researchers are working to modulate the surface morphology of the triboelectric layer through surface-engineering, surface modification, material selection, etc. Although triboelectric material can obtain a high charge density, achieving high output performance that is predictable and uniform requires mechanical energy conversion systems (MECSs), and their development remains a huge challenge. Many previous works did not provide an MECS or introduced only a simple mechanical system to support the TENG integration system device. However, these kinds of designs cannot boost the output performance or control the output frequency waveform. Currently, some MECS designs use transmission conversion components such as gear-trains, cam-noses, spiral springs, flywheels, or governors that can provide the step-up, controllable, predictable, and uniform output performance required for TENGs to be suitable for daily applications. In this review, we briefly introduce various MECS designs for regulating the output performance of TENGs. First, we provide an overview of simple machines that can be used when designing MECSs and introduce the basic working principles of TENGs. The following sections review MECSs with gear-based, cam-based, flywheel-based, and multiple-stage designs and show how the MECS structure can be used to regulate the input flow for the energy harvester. Last, we present a perspective and outline for a full system design protocol to correlate MECS designs with future TENG applications.
Highlights
The depletion of restricted resources such as crude oil, natural gas, coal, clean water, and minerals is having large effects on the world economy and global warming
Many researchers claim that their triboelectric nanogenerators (TENGs) system designs are cost-effective, lightweight, small, and easy to maintain in harsh environments
We briefly introduce various mechanical energy conversion systems (MECSs) designs for regulating TENG output performance
Summary
The depletion of restricted resources such as crude oil, natural gas, coal, clean water, and minerals is having large effects on the world economy and global warming. Many researchers claim that their TENG system designs are cost-effective, lightweight, small, and easy to maintain in harsh environments These studies still lack the mechanical energy conversion systems (MECSs) needed to control and enhance TENG output or regulate its performance [65]. We provide an overview of simple machines that can be applied to MECSs and introduce the basic working principles of TENGs. The following sections review gear-based [36,66,68,69], cam-based [66,67,69], flywheel-based [35,69], and multiplestage [68,69] MECS designs and explain how the different MECS structures regulate the input of flow energy harvesters [71,72,73]. We present an outline for a full system design protocol to coordinate MECS designs for future TENG applications
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