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The end of the charger? Students invent device capable of charging phone batteries using Wi-Fi signals

 

Forget wireless or portable phone chargers, a pair of engineering students have created a device that could charge a phone’s battery using Wi-Fi.

The device uses so-called metamaterials that can capture energy waves and convert them into an electric current.

The amount of voltage the device creates is also said to be more powerful than that produced through current USB chargers.

It was created by Allen Hawkes and Alexander Katko from Duke University’s Pratt School of Engineering with help from professor of electrical and computer engineering, Steven Cummer.

The team used five fibreglass and copper energy conductors wired together on a circuit board to create what’s called a metamaterial array.

Metamaterials are engineering structures capable of harvesting various forms of wave energy.

Duke University’s David Smith explained: ‘Imagine a fabric woven of thread. In this fabric, light is only allowed to flow over the threads.

‘If you punch a hole in the fabric with a pin, light will go around the hole and resume its original course of travel, since light can only travel over the thread. ‘

He continued that because light waves can only travel in this way, the hole is practically ‘invisible’.

Metamaterial arrays work in the same way to control how waves move around the structure, making it possible to capture and harvest them, and their energy.

Hawkes and Katko’s device was designed to harvest the energy from microwaves.

They claim their five-cell metamaterial can convert these waves into 7.3 volts with an efficiency of 36.8 per cent.

By comparison, USB chargers for phones and other small devices provide around 5 volts.

Having successfully tested their energy harvester with microwaves, the researchers claim it could be used to harvest the signal from other sources such as satellite signals, sound waves or Wi-Fi signals.

‘It’s possible to use this design for a lot of different frequencies and types of energy, including vibration and sound energy harvesting’ said Katko.

‘Until now, a lot of work with metamaterials has been theoretical. We are showing that with a little work, these materials can be useful for consumer applications.’

Katko continued that a metamaterial coating could also be applied to the ceiling of a room and used to redirect lost or dropped Wi-Fi signals.

The researchers added that a similar device could one day be fitted to phones and other small electronic devices.

This could make it possible to charge phones by connecting it to a Wi-Fi network, without the need for a charger or power point. 

‘Our work demonstrates a simple and inexpensive approach to electromagnetic power harvesting,’ said Cummer. 

‘The beauty of the design is that the basic building blocks are self-contained and additive. One can simply assemble more blocks to increase the scavenged power.’

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