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Static electricity could charge our electronics

While common in everyday life, the science behind this phenomenon is not well understood

Date:
January 25, 2019
Source:
University at Buffalo
Summary:
Static electricity is one of the most common, yet poorly understand, forms of power generation. A new study suggests the cause of this hair-raising phenomenon is tiny structural changes that occur at the surface of materials when they come into contact with each other. The finding could someday help technology companies create more sustainable and longer-lasting power sources for small electronic devices.
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Unhappy with the life of your smartphone battery?

Thought so.

Help could be on the way from one of the most common, yet poorly understand, forms of power generation: static electricity.

"Nearly everyone has zapped their finger on a doorknob or seen child's hair stick to a balloon. To incorporate this energy into our electronics, we must better understand the driving forces behind it," says James Chen, PhD, assistant professor in the Department of Mechanical and Aerospace Engineering in the School of Engineering and Applied Sciences at the University at Buffalo.

Chen is a co-author of a study in the December issue of the Journal of Electrostatics that suggests the cause of this hair-raising phenomenon is tiny structural changes that occur at the surface of materials when they come into contact with each other.

The finding could ultimately help technology companies create more sustainable and longer-lasting power sources for small electronic devices.

Supported by a $400,000 National Science Foundation grant, Chen and Zayd Leseman, PhD, associate professor of mechanical and nuclear engineering at Kansas State University, are conducting research on the triboelectric effect, a phenomenon wherein one material becomes electrically charged after it contacts a different material through friction.

The triboelectric effect has been known since ancient times, but the tools for understanding and applying it have only become available recently due to the advent of nanotechnology.

"The idea our study presents directly answers this ancient mystery, and it has the potential to unify the existing theory. The numerical results are consistent with the published experimental observations," says Chen.

The research Chen and Leseman conduct is a mix of disciplines, including contact mechanics, solid mechanics, materials science, electrical engineering and manufacturing. With computer models and physical experiments, they are engineering triboelectric nanogenerators (TENGs), which are capable of controlling and harvesting static electricity.

"The friction between your fingers and your smartphone screen. The friction between your wrist and smartwatch. Even the friction between your shoe and the ground. These are great potential sources of energy that we can to tap into," Chen says. "Ultimately, this research can increase our economic security and help society by reducing our need for conventional sources of power."

As part of the grant, Chen has worked with UB undergraduate students, as well as high school students at the Health Sciences Charter School in Buffalo, to promote science, technology, engineering and math (STEM) education.


Story Source:

Materials provided by University at Buffalo. Note: Content may be edited for style and length.


Journal Reference:

  1. Khalid M. Abdelaziz, James Chen, Tyler J. Hieber, Zayd C. Leseman. Atomistic Field Theory for contact electrification of dielectrics. Journal of Electrostatics, 2018; 96: 10 DOI: 10.1016/j.elstat.2018.09.001

Cite This Page:

University at Buffalo. "Static electricity could charge our electronics." ScienceDaily. ScienceDaily, 25 January 2019. <www.sciencedaily.com/releases/2019/01/190125120117.htm>.
University at Buffalo. (2019, January 25). Static electricity could charge our electronics. ScienceDaily. Retrieved April 12, 2024 from www.sciencedaily.com/releases/2019/01/190125120117.htm
University at Buffalo. "Static electricity could charge our electronics." ScienceDaily. www.sciencedaily.com/releases/2019/01/190125120117.htm (accessed April 12, 2024).

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