Fabric that captures energy to power your electronic devices
January 04 2017 10:15 PM
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In the future, your clothing may power your phone and other devices by gathering and storing energy from your movement as well as from sunlight.

By Amina Khan

In the future, your clothes will work for you. A team of scientists led out of the Georgia Institute of Technology has created a fabric that can gather energy from both sunlight and motion, then store it in embedded fibres.
The textile, described in Science Advances, could help pave the way for energy-harvesting clothes and new wearable devices.
Scientists and engineers have been working for years on creating fabrics that, if worn, could harvest energy for the wearer, said senior author Zhong Lin Wang, a nanotechnologist at Georgia Tech.
“The objective was to harvest energy from our living environment, for example, human walking or muscle movement and fabric; the goal is to drive small electronics,” he said. “And this research recently attracted a lot of attention because these days, flexible electronics, wearable electronics, have become very popular and fashionable today. But each of them needs a power source.”
It’s not an easy task to make devices that can be flexible enough to create a material that can actually be sewn into shirts, jackets or other garments. Wang’s team, for one, has been working on various aspects of this early-stage technology for 11 years.
On top of that, any energy would have to be stored in some way that didn’t involve carrying around a bulky battery.
Wang and his team solved these issues by creating a triple-threat (or perhaps, a triple-thread) fabric: It uses dye-sensitised solar cells shaped into long fibres to harvest light energy; it uses fibre-shaped triboelectric nanogenerators to harvest electrostatic charge made by normal movement; and it also uses fibre-shaped supercapacitors to store the energy in electrochemical form.
Under sunlight, the solar cells provide the majority of the power; but indoors or on a cloudy day, the movement-based fibres pick up the slack, Wang said. (He was quick to add that you don’t need to flap your arms or do anything dramatic; the fibres will gather energy from small, normal movements.)
“Our idea is to try to use whatever is available, whenever it’s available,” he said.
Currently, the researchers have a roughly 225-square-centimetre (or 35-square-inch) patch of the energy-harvesting fabric; it seems to be roughly as flexible as woven straw. The scientists hope to get it down to the flexibility of common cloth. The key to that, Wang said, is making the fibres even thinner: Currently they stretch from 15 to 20 centimetres long and about 2 millimetres wide. Once they reach about half a millimetre in width, they will be much more pliant, he added.
But that’s if you were to make a device entirely out of these fibres; theoretically, a few of these fibres could also be woven into any kind of textile, such as cotton, and offer some energy-harvesting benefits without sacrificing softness and flexibility, Wang said.
While the technology could allow users to charge phones and wearable devices, it could also make interactive garments (a gown with LED lights, for example) more feasible for fashion designers. The research could also prove useful for building flexible screens, designing heart and other health monitors, and may even find applications in robotics.
Before the technology gets there, however, Wang ticked off the items on his to-do list.
“There’s a lot of things to do: No. 1 is to get the fibre thinner, so more flexible,” he said. “No. 2 is to improve the durability or robustness, so they can last longer. And third is, we have to work on continuing to improve the performance. The more power, the better.” –Los Angeles Times/TNS




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