Issue 48, 2021

Enhancement of patterned triboelectric output performance by an interfacial polymer layer for energy harvesting application

Abstract

Efficaciously scavenging waste mechanical energy from the environment is an emerging field in the self-powered and self-governing electronics systems which solves battery limitations. It demonstrates enormous potential in various fields such as wireless devices, vesture, and portable electronic devices. Different surface textured PET triboelectric nanogenerators (TENGs) were developed by the laser pattern method in the previous work, with the line textured TENG device showing improved performance due to a larger surface contact area. Here, a polyethylene oxide (PEO) and polyvinyl alcohol (PVA) coated line patterned PET-based TENG was developed for the conversion of mechanical energy into useful electric energy. The PEO layer boosted the TENG output to 4 times higher than that of the PA6-laser patterned PET TENG device (our previous report) and 2-fold higher than that of a pristine line patterned TENG. It generated an open-circuit voltage, short circuit current, and instantaneous power density of 131 V, 2.32 μA, and 41.6 μW cm−2, respectively. The as-fabricated device was tested for 10 000 cycles for reliability evaluation, which shows no significant performance degradation. In addition, the device was deployed to power 10 LEDs with high intensity. Thus, this device can be used for ambient mechanical energy conversion and to power micro and nano-electronic devices.

Graphical abstract: Enhancement of patterned triboelectric output performance by an interfacial polymer layer for energy harvesting application

Supplementary files

Article information

Article type
Paper
Submitted
23 אוק 2021
Accepted
16 נוב 2021
First published
16 נוב 2021

Nanoscale, 2021,13, 20615-20624

Enhancement of patterned triboelectric output performance by an interfacial polymer layer for energy harvesting application

M. M, P. Rajagopalan, S. Xu, I. A. Palani, V. Singh, X. Wang and W. Wu, Nanoscale, 2021, 13, 20615 DOI: 10.1039/D1NR07021E

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