Transparent bendable electronics could soon be a reality thanks to a new method developed by scientists, including Indian-origin researchers, in Australia.
Scientists from RMIT University's Functional Materials and Microsystems research group have developed a new method to transfer electronics with versatile functionality, which are usually made on rigid silicon, onto a flexible surface.
The ability of micro and nano-electronic devices to sense, insulate or generate energy is controlled by thin, transparent nanolayers of oxide materials, often much thinner than 1/100th of a human hair.
These oxide materials are brittle and their high processing temperatures - often in excess of 300 degrees Celsius - have until now prevented their incorporation in flexible electronic devices.
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"We have discovered a micro-tectonic effect, where microscale plates of oxide materials slide over each other, like geological plates, to relieve stress and retain electrical conductivity," he said.
"The novel method we have developed overcomes the challenges of incorporating oxide materials in bendable electronic devices, paving the way for bendable consumer electronics and other exciting applications," he added.
Supervisor and co-leader of the research group, Dr Madhu Bhaskaran, said the new approach used two popular materials - transparent conductive indium tin oxide and rubber-like silicone, which is also biocompatible.
"This is in addition to the immediate potential for consumer electronics applications in flexible displays, solar cells, and energy harvesters," she added.
Dr Sharath Sriram is also co-leader of the research group whose work is published in Nature Publishing Group's Asia Materials.