Flexible displays have been receiving a lot of attention lately from researchers as consumers seek increased mobility and in what could herald an era of thin, transparent and flexible digital displays for TV sets, smartphones and tablets, researchers at Tel Aviv University have developed a novel structure that can be used to produce bendable screens.
The technology, detailed in the journal Nature Nanotechnology, harnesses bio-nanotechnology to emit a full range of colours in one pliable pixel layer – as opposed to the several rigid layers that constitute today’s screens. These new screens can easily be rolled up and put away, rather than requiring a flat surface for storage and transportation.
“Our material is light, organic and environmentally friendly. It is flexible and a single layer emits the same range of light that requires several layers today,” said Ehud Gazit, a professor and Or Berger, doctoral student, of the Department of Molecular Microbiology and Biotechnology at TAU’s Faculty of Life Sciences.
By using only one layer, one can minimise production costs dramatically which will lead to lower prices for consumers as well, he added.
For this, the researchers tested different combinations of peptides: short protein fragments, embedded with DNA elements which facilitate the self-assembly of a unique molecular architecture.
Peptides and DNA are two of the most basic building blocks of life.
In the field of bio-nanotechnology, scientists utilise these building blocks to develop novel technologies with properties not available for inorganic materials such as plastic and metal.
Using methods such as electron microscopy and X-ray crystallography, the researchers discovered that three of the molecules they synthesised could self-assemble, in a few minutes, into ordered structures.
The structures were found to emit light in every colour, as opposed to other fluorescent materials that shine only in one specific colour.
Moreover, light emission was observed also in response to electric voltage – which make it a perfect candidate for opto-electronic devices like display screens, the authors concluded.
that’s brill I like the sound of that, perhaps apple could do with it, as when they bend they don’t bend back but never have they been on the level.