Soon, see-through displays and smart windows

SEOUL :  A newly developed transparent light shutter may pave the way for see-through displays and smart windows, scientists say.
Researchers at Pusan National University in South Korea said a novel liquid crystal technology will allow displays to flip between transparent and opaque states.
The idea of transparent displays has been around for a few years, but actually creating them from conventional organic light-emitting diodes has proven difficult.
Light shutters, which use liquid crystals that can be switched between transparent and opaque states by scattering or absorbing the incident light, are one proposed solution to these obstacles, but they come with their own set of problems, researchers said.
While they do increase the visibility of the displays, light shutters based on scattering can’t provide black colour, and light shutters based on absorption can’t completely block the background.
They aren’t particularly energy-efficient either, requiring a continuous flow of power in order to maintain their transparent ‘window’ state when not in use.
Tae-Hoon Yoon’s group’s new design remedies all of these problems by using scattering and absorption simultaneously. To do this, Yoon’s group fabricated polymer-networked liquid crystals cells doped with dichroic dyes.
In their design, the polymer network structure scatters incident, or oncoming light, which is then absorbed by the dichroic dyes.
The light shutters use a parallel pattern of electrodes located above and below the vertically aligned liquid crystals.
When an electric field is applied through the electrodes, the axes of the dye molecules are aligned with that of oncoming light, allowing them to absorb and scatter it.
This effectively negates the light coming at the screen from its backside, rendering the display opaque – and the screen’s images fully visible.
“The incident light is absorbed, but we can still see through the background with reduced light intensity,” Yoon said.
In its resting state, this setup lets light pass through, so power need only be applied when you want to switch from transparent window view to opaque monitor view, researchers said.
And because the display’s on-off switch is an electric field, it has a response time of less than one millisecond – far faster than that of contemporary light shutters, which rely on the slow relaxation of liquid crystals for their off-switch.
The research is published in the journal AIP Advances. (AGENCIES)