The Everlasting Battery……. from dream to reality

    

What was once a dream has finally turned to reality. Technology has finally paved the way for trickle-charging cell phones while they are being used. A material has been developed which when placed under the keypad would help to generate small amounts of electricity which would then be redirected for charging the mobile phone. This stupendous idea has been worked upon by Dr Madhu Bhaskaran, lead co-author RMIT University, who said that this research has brought together two distinct realms of technology in order to realise this dream.

The piezoelectric materials have been used for converting the pressure signal into electrical energy and then integrated with thin film technology used for microchip manufacturing. Although the idea of harvesting energy by means of piezoelectric materials

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idea into reality brings along with itself some complications. This concept though ideal in theory, is complicated to be implemented practically and poses problems as far as mass fabrication is concerned.

The study was centred on exclusively thin film coatings, keeping in mind that these would be the only practically possible films which could integrate piezoelectric substances into the existent technology. This study, funded by the Australian Research Council set an unprecedented landmark by examining the response of piezoelectric materials at the nano level. Precise measurement of currents and voltages was made and thus estimates of the amount of power generated were made.

This pioneering work by Dr Bhaskaran, co-authored with Dr Sharath Sriram was led by Professor Arnan Mitchell within the Microplatforms Research Group within the RMIT. The author duo made collaboration with Dr Simon Rufell from the Australian National University for the purpose of this research.

This study, as published in Volume 21, Issue 12 of Advanced Functional Materials has dwelt in a much needed sphere of alternate energy solutions. Much needs to be done for finding more efficient methods to power microchips that form the building blocks of day to day technology, be it the generation of smart phones or high speed computers. The next challenge faced by the team of researchers if to amplify the electrical energy generated by the piezoelectric material and to integrate it into a compact and low cost structure.

 

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