Nanotechnology researchers at the Georgia Institute of Technology are developing a shirt that harvests energy from the wearer's physical motion and converts it into electricity for powering small electronic devices worn by soldiers in the field, hikers and other users.

 

Figure NG 1: (a) Scanning electron microscopy (SEM) image of two entangled microfibers that were covered radially with piezoelectric ZnO nanowires, with one of them coated with gold. The relative scrubbing of the two “brushes” generates electricity. (b) A magnified SEM image at the area where the two “brushes” meet teeth-to-teeth, with the top one coated with gold and the bottom one is as-synthesized ZnO nanowires. (c) A schematic illustration of the microfiber-nanowire hybrid nanogenerator, which is the basis of using fabrics for generating electricity. Images courtesy of Prof. Z.L. Wang and Dr. X.D. Wang, Georgia Institute of Technology

  

The research, funded by the National Science Foundation (NSF) and described in the Feb. 14 issue of Nature, details how pairs of textile fibers covered with zinc oxide nanowires generate electricity in response to applied mechanical stress. Known as "the piezoelectric effect," the resulting current flow from many fiber pairs woven into a shirt or jacket could allow the wearer's body movement to power a range of portable electronic devices.  The fibers could also be woven into curtains, tents or other structures to capture energy from wind motion, sound vibration or other mechanical energy.

"The two fibers scrub together just like two bottle brushes with their bristles touching, and the piezoelectric-semiconductor process converts the mechanical motion into electrical energy," says Zhong Lin Wang, a Regents professor in the School of Materials Science and Engineering at the Georgia Institute of Technology.  "Many of these devices could be put together to produce higher power output."

Figure NG 2: A schematic illustration of the microfiber-nanowire hybrid nanogenerator, which is the basis of using fabrics for generating electricity. The fibers were first grown with radially distributed piezoelectric ZnO nanowires. The microfibers that are coated with gold (yellow color) scrub the microfibers that are not coated with gold produce electricity via a coupled piezoelectric-semiconducting process. This is the fundamental concept of “power shirt”. Images courtesy of Prof. Z.L. Wang and Dr. X.D. Wang, Georgia Institute of Technology

Wang and collaborators Xudong Wang and Yong Qin have made more than 200 of the fiber nanogenerators.  Each is tested on an apparatus that uses a spring and wheel to move one fiber against the other.  The fibers are rubbed together for up to 30 minutes to test their durability and power production. 

The researchers have measured current of about four nanoamperes and output voltage of about four millivolts from a nanogenerator that included two fibers that were each one centimeter long. With a much improved design, Wang estimates that a square meter of fabric made from the special fibers could theoretically generate as much as 80 milliwatts of power.

So far, there is only one wrinkle in the fabric, so to speak - washing it. Zinc oxide is sensitive to moisture, so in real shirts or jackets, the nanowires would have to be protected from the effects of the washing machine.

The research was funded by NSF's Division of Materials Research. "This multi-disciplinary research grant enables materials scientists and engineers from varied backgrounds to work together towards translating basic and applied research into viable technologies," said NSF Program Manager Harsh Deep Chopra.

The research was also sponsored by the U.S. Department of Energy and the Emory-Georgia Tech Nanotechnology Center for Personalized and Predictive Oncology.

The contents of this article are from the National Science Foundation (NSF) release of February 13, 2008.

The images are courtesy of Prof. Z.L. Wang and Dr. X.D. Wang, Georgia Institute of Technology

Program Contacts

Harsh D. Chopra, National Science Foundation (703) 292-4543 hchopra@nsf.gov

Principal Investigators

Zhong Lin Wang, Georgia Institute of Technology (404) 894-8008 zhong.wang@mse.gatech.edu

Related Websites
Professor Wang's Nano Research group: http://www.nanoscience.gatech.edu/zlwang/wang.html

Note:

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