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Breakthrough could lead to 'artificial skin' that senses touch, humidity and temperature

Date:
July 8, 2013
Source:
American Technion Society
Summary:
Using tiny gold particles and a kind of resin, a team of scientists has discovered how to make a new kind of flexible sensor that one day could be integrated into electronic skin, or e-skin. If scientists learn how to attach e-skin to prosthetic limbs, people with amputations might once again be able to feel changes in their environments.

Closeup of fingertip (stock image). Researchers have discovered how to make a new kind of flexible sensor that one day could be integrated into electronic skin.
Credit: iStockphoto

Using tiny gold particles and a kind of resin, a team of scientists at the Technion-Israel Institute of Technology has discovered how to make a new kind of flexible sensor that one day could be integrated into electronic skin, or e-skin. If scientists learn how to attach e-skin to prosthetic limbs, people with amputations might once again be able to feel changes in their environments.

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The findings appear in the June issue of ACS Applied Materials & Interfaces.

The secret lies in the sensor's ability to detect three kinds of data simultaneously. While current kinds of e-skin detect only touch, the Technion team's invention "can simultaneously sense touch, humidity, and temperature, as real skin can do," says research team leader Professor Hossam Haick. Additionally, the new system "is at least 10 times more sensitive in touch than the currently existing touch-based e-skin systems."

Researchers have long been interested in flexible sensors, but have had trouble adapting them for real-world use. To make its way into mainstream society, a flexible sensor would have to run on low voltage (so it would be compatible with the batteries in today's portable devices), measure a wide range of pressures, and make more than one measurement at a time, including humidity, temperature, pressure, and the presence of chemicals. In addition, these sensors would also have to be able to be made quickly, easily, and cheaply.

The Technion team's sensor has all of these qualities. The secret is the use of monolayer-capped nanoparticles that are only 5-8 nanometers in diameter. They are made of gold and surrounded by connector molecules called ligands. In fact, "monolayer-capped nanoparticles can be thought of as flowers, where the center of the flower is the gold or metal nanoparticle and the petals are the monolayer of organic ligands that generally protect it," says Haick.

The team discovered that when these nanoparticles are laid on top of a substrate -- in this case, made of PET (flexible polyethylene terephthalate), the same plastic found in soda bottles -- the resulting compound conducted electricity differently depending on how the substrate was bent. (The bending motion brings some particles closer to others, increasing how quickly electrons can pass between them.) This electrical property means that the sensor can detect a large range of pressures, from tens of milligrams to tens of grams. "The sensor is very stable and can be attached to any surface shape while keeping the function stable," says Dr. Nir Peled, Head of the Thoracic Cancer Research and Detection Center at Israel's Sheba Medical Center, who was not involved in the research.

And by varying how thick the substrate is, as well as what it is made of, scientists can modify how sensitive the sensor is. Because these sensors can be customized, they could in the future perform a variety of other tasks, including monitoring strain on bridges and detecting cracks in engines.

"Indeed," says Dr. Peled, "the development of the artificial skin as biosensor by Professor Haick and his team is another breakthrough that puts nanotechnology at the front of the diagnostic era."

The research team also included Meital Segev-Bar and Gregory Shuster, graduate students in the Technion's Russell Berrie Nanotechnology Institute, as well as Avigail Landman and Maayan Nir-Shapira, undergraduate students in the Technion's Chemical Engineering Department.


Story Source:

The above story is based on materials provided by American Technion Society. The original article was written by Kevin Hattori. Note: Materials may be edited for content and length.


Journal Reference:

  1. Meital Segev-Bar, Avigail Landman, Maayan Nir-Shapira, Gregory Shuster, Hossam Haick. Tunable Touch Sensor and Combined Sensing Platform: Toward Nanoparticle-based Electronic Skin. ACS Applied Materials & Interfaces, 2013; 5 (12): 5531 DOI: 10.1021/am400757q

Cite This Page:

American Technion Society. "Breakthrough could lead to 'artificial skin' that senses touch, humidity and temperature." ScienceDaily. ScienceDaily, 8 July 2013. <www.sciencedaily.com/releases/2013/07/130708124423.htm>.
American Technion Society. (2013, July 8). Breakthrough could lead to 'artificial skin' that senses touch, humidity and temperature. ScienceDaily. Retrieved December 19, 2014 from www.sciencedaily.com/releases/2013/07/130708124423.htm
American Technion Society. "Breakthrough could lead to 'artificial skin' that senses touch, humidity and temperature." ScienceDaily. www.sciencedaily.com/releases/2013/07/130708124423.htm (accessed December 19, 2014).

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