Abstract
Optimized design of sliding-mode triboelectric nanogenerator (TENG) that is triggered by relative sliding between dielectric layers through a friction process forms one of the key focuses in this community since it may enhance the feasibility of real applications in industries. We propose here a theoretical model based on multi-parameter analysis to provide a rational optimization strategy for design of sliding mode TENG. By combining multiple parameters into dimensionless variables, the normalized output performance is expressed by virtue of two compound parameters. The scaling laws are achieved between the normalized electric output and these compound parameters, involving device dimensions (sizes, dielectric layer thickness), electrical properties of the electrode and dielectric materials, loading conditions (loading force, frequency and motor process), and the circuit conditions (open/short circuit and load resistance). The scaling laws may provide a more comprehensive and rational optimization strategy for sliding-mode TENG based on multi-parameter analysis and may help to enhance the output performance of the device as either a smart sensor or an energy harvester.
A theoretical model for optimizing sliding-mode TENG based on multi-parameter analysis is established to simulate the normalized output performance of sliding-mode TENG in various working conditions. The theoretical results agree very well with experimental data. According to scaling laws between dimensionless output voltage and compound parameters, the optimal combination of all the parameters considered simultaneously could be acquired for the best output voltage, providing a more rational optimization strategy for device design. [Display omitted]
•A theoretical approach for optimizing sliding-mode TENG based on multi-parameter analysis is proposed.•The scaling laws may help acquire the optimal combination with all the parameters considered simultaneously.•The output performance may be enhanced by tuning multiple parameters or varying single parameter with the others fixed.