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Science/Tech See other Science/Tech Articles Title: Smarty pants: wearable electronics will recharge your life In the near future our mobile phones will be powered by wearable electronics that incorporate piezoelectric devices into fabric. Image: Image: Yonggang Huang/Northwestern University Imagine having a wafer-thin touchscreen on your sleeve that, like a scene out of a Philip K. Dick novel, gives you all the functionality of a smartphone without the awkwardness of a cumbersome battery. The best part about this scenario is it may not be as far from reality as you think. The bulky packaging of batteries limits innovation of some of the amazing new, ultra-slim electronics today. If you open up an iPhone 5, youll see that a large proportion of the phones volume is taken up by the battery. But flexible batteries that can be incorporated into fabrics offer a game-changing way of powering personal devices and take us into a new world of wearable electronics. My colleagues and I form one of several applied research groups developing both flexible batteries and the energy harvesting systems needed to charge them. The body electric 'Piezo' is a term derived from a Greek word meaning to squeeze or press, and piezoelectric materials generate electricity when they are pressured or twisted enabling development of shoes, clothing or recreational gear that generate electricity from movement. Flexible batteries can be used to store the captured energy from human movement via piezoelectric materials woven into fabrics or inserted into silicone rubber. You could have a jacket thats a wearable mobile phone, with a flexible electronic screen printed on the cuffs, flexible phone circuit boards woven into the fabric, and a microphone in the collar. Just input the number on your cuff, and start talking. There would be no risk of running out of power mid-conversation youd just move your arms about to charge the batteries. The jacket would be washable but youd need another phone jacket on the day it was in the wash. In a similar advance, a cocktail dress wired for Bluetooth that lights up when the wearer gets an incoming call won a design competition for a London College of Fashion student. Its hard to ignore that kind of phone call. Running with it The same technology can power smart sports clothing, so that your jogging suit or cycling shorts could carry a global positioning system (GPS) unit and a fitness monitor powered by your movements as you pedal or run. You could monitor and analyse your workout before you hit the shower. Australian Football League players already optimise their playing performance using GPS trackers carried between their shoulder blades. Smart cycling shirts with pedal powered light emitting diode (LED) panels could help keep cyclists visible on the road or give a turning signal on the back of their jacket. In leisure applications, flexible batteries have multiple applications. Incorporating a flexible battery into a backpack means that you could charge your phone, MP3 player, or GPS unit from your backpack after a days hike. Tent panels that incorporate flexible batteries could capture wind energy and use it to charge a personal computer, GPS or personal locator beacon, such as an Emergency Position Indicating Radiobeacon (EPIRB) making searches for skiers and hikers lost in the bush easier. The same technology is being used to capture and store energy to power military electronic equipment, so that soldiers in the field dont have to carry extra weight of batteries. On a larger scale, buildings made with fabrics which capture wind energy are proposed as a renewable power source. Footpaths which capture energy from footsteps are on the market there is even a dance floor which powers the air conditioning for an eco-nightclub using kinetic energy (energy of motion) from dancing patrons. Clinical applications In medical care, wearable electronics provide an opportunity for revolutionary advances. Wearable electronic shirts capable of powering automated injection devices could make life easier for patients who need regular injections of insulin or other drugs. A shirt incorporating a heart rate monitor could sense changes in heart rhythm in elderly or cardiac-impaired patients and summon emergency services if patient health is severely compromised by a change in heart rate. Best of all, wearable electronics provide non-intrusive monitoring enabling patients to pursue normal daily life activities under medical care. But for those of us for whom batteries are a constant item on the shopping list, perhaps the biggest change that wearable electronics offers is freedom from needing to buy spare batteries. Now that will make a difference to my personal retail experience. Adam Best has received funds from the Australian Defence Department's Capability and technology Demonstrator (CTD) program and from CSIRO's National Research Flagships Energy Transformed and Future Manufacturing. Editor's Note: This article was originally published by The Conversation, here, and is licenced as Public Domain under Creative Commons. See Creative Commons - Attribution Licence. Post Comment Private Reply Ignore Thread Top Page Up Full Thread Page Down Bottom/Latest
#1. To: Tatarewicz (#0)
Amazing.
The most dangerous man to any government is the man who is able to think things out... without regard to the prevailing superstitions and taboos. Almost inevitably he comes to the conclusion that the government he lives under is dishonest, insane, intolerable. ~ H. L. Mencken
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