Indian-origin researcher developing portable electricity, life-like prosthetics

November 17th, 2007 - 2:51 pm ICT by admin  

Washington, November 17 (ANI): An Indian-origin researcher at the University of Houston is leading a study aimed at recreating and enhancing the technology that that makes a cell phone vibrate and provides more natural movements to prosthetic limbs.

Professor Pradeep Sharma says that his project may result in better prosthetic movements, and provide instant electrical power for soldiers through the simple act of walking.

He has revealed that his team is endeavouring to create a piezoelectric on steroids.

Piezoelectricity is the ability of some materials to generate an electric charge when placed under stress. The pioneering technology has many applications ranging from making an airbag deploy to making flame-producing lighters.

Although piezoelectrics are naturally occurring, they have their limits. This is the reason why applications requiring a level of energy conversion not found in a naturally occurring piezoelectric warrant a composite consisting of piezoelectrics and non-piezoelectrics.

With this information at hand, the university team is trying to create piezoelectrics from man-made materials that have no piezoelectric property.

If you press on a piezoelectric, or apply mechanical force, it will produce a voltage. Or, if you apply a voltage or electrical force to it, the object will bend or change its shape, Sharma said.

According to him, an engineered piezoelectric strip placed in the boot of a soldier may generate electricity, and power the increasing number of devices that soldiers carry.

The researchers also believe that the highly customisable piezoelectrics may enable the creation of prosthetics that may offer both the flexibility and the strength of real limbs.

Current prosthetic limbs face challenges in range and movement by the two types of naturally occurring piezoelectrics, ceramic and polymer.

Ceramic piezoelectrics are very hard and brittle, and dont allow for a lot of movement. They take a lot of electrical energy for a lot of motion. Polymers are better for large forces of motion, but dont have a lot of strength. So, you can stretch adequately, but may not even be able to pick up an egg. Nature has given us some elements, and now were going beyond and designing materials from the ground up. We wanted to combine the best qualities of the two types of piezoelectrics, among other things, Sharma said.

He has been working to refine his theoretical ideas for two years. His team will begin putting the research to the test with the help of a 1.22 million-dollar grant from the National Science Foundation.

The real applications of this technology are going to come from the fact that you dont have to depend on existing piezoelectrics. You can create materials, using certain nanoscale effects, that give higher energy conversion. These are basically piezoelectrics on steroids, Sharma said. (ANI)

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