Electrostatic discharge prevention system via body potential control based on a triboelectric nanogenerator

In modern society, electrostatic discharge (ESD) is frequently caused by humans charged with positive charges by contact electrification, wherein natural grounding is difficult. ESD not only makes our skin uncomfortable but can also lead to the destruction of small electronic components, fires, and explosions. Therefore, there is a continuous demand for technology, such as an ungrounded anti-static method, to prevent static electricity as the grounding method is inconvenient. This study demonstrates an ESD prevention system (EPS) using a triboelectric nanogenerator (TENG), which is ungrounded and does not require an additional power source. The developed EPS prevents ESD by supplying the negative charges generated from TENGs to the human body. Various factors were investigated to optimize the performance of the EPS. Using the TENG-based EPS, the electric potential that raised to 200, 500, and 1000 V was reduced to 0 V within 20, 31, and 38 s, respectively. Additionally, it succeeded in maintaining the electric potential of a body in a stable state by supplying negative charges generated by TENG, which is operated by the mechanical energy of the human body to compensate for the positive charges generated by contact electrification. This study provides a new design for ESD prevention devices that can be utilized in various industrial units, including semiconductors, petrochemicals, and chemicals, and for the general public.

Automated summary

This study demonstrates an electrostatic discharge (ESD) prevention system (EPS) using a ungrounded and power source-free triboelectric nanogenerator (TENG). The EPS effectively prevents ESD by supplying negative charges to the human body. Through optimization, the EPS can rapidly reduce the electric potential to 0V and maintain a stable electric potential.