LEDs made from 'wonder material' perovskite

Aug 05, 2014

(Phys.org) —Colourful LEDs made from a material known as perovskite could lead to LED displays which are both cheaper and easier to manufacture in future.

A hybrid form of perovskite - the same type of material which has recently been found to make highly efficient solar cells that could one day replace silicon - has been used to make low-cost, easily manufactured LEDs, potentially opening up a wide range of in future, such as flexible colour displays.

This particular class of semiconducting perovskites have generated excitement in the solar cell field over the past several years, after Professor Henry Snaith's group at Oxford University found them to be remarkably efficient at converting light to electricity. In just two short years, perovskite-based solar cells have reached efficiencies of nearly 20%, a level which took conventional silicon-based 20 years to reach.

Now, researchers from the University of Cambridge, University of Oxford and the Ludwig-Maximilians-Universität in Munich have demonstrated a new application for perovskite , using them to make high-brightness LEDs. The results are published in the journal Nature Nanotechnology.

Perovskite is a general term used to describe a group of materials that have a distinctive crystal structure of cuboid and diamond shapes. They have long been of interest for their superconducting and ferroelectric properties. But in the past several years, their at converting light into electrical energy has opened up a wide range of potential applications.

The perovskites that were used to make the LEDs are known as organometal halide perovskites, and contain a mixture of lead, carbon-based ions and halogen ions known as halides. These materials dissolve well in common solvents, and assemble to form perovskite crystals when dried, making them cheap and simple to make.

"These organometal halide perovskites are remarkable semiconductors," said Zhi-Kuang Tan, a PhD student at the University of Cambridge's Cavendish Laboratory and the paper's lead author. "We have designed the diode structure to confine electrical charges into a very thin layer of the perovskite, which sets up conditions for the electron-hole capture process to produce light emission."

The perovskite LEDs are made using a simple and scalable process in which a perovskite solution is prepared and spin-coated onto the substrate. This process does not require high temperature heating steps or a high vacuum, and is therefore cheap to manufacture in a large scale. In contrast, conventional methods for manufacturing LEDs make the cost prohibitive for many large-area display applications.

"The big surprise to the semiconductor community is to find that such simple process methods still produce very clean semiconductor properties, without the need for the complex purification procedures required for traditional semiconductors such as silicon," said Professor Sir Richard Friend of the Cavendish Laboratory, who has led this programme in Cambridge.

"It's remarkable that this material can be easily tuned to emit light in a variety of colours, which makes it extremely useful for colour displays, lighting and optical communication applications," said Tan. "This technology could provide a lot of value to the ever growing flat-panel display industry."

The team is now looking to increase the efficiency of the LEDs and to use them for diode lasers, which are used in a range of scientific, medical and industrial applications, such as materials processing and medical equipment. The first commercially-available LED based on perovskite could be available within five years.

Explore further: Scientists develop pioneering new spray-on solar cells

More information: Nature Nanotechnology, www.nature.com/nnano/journal/v… /nnano.2014.149.html

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not rated yet Aug 05, 2014
Efficiency per Lumen/Watt? Average number of hours?
5 / 5 (1) Aug 05, 2014
They achieved a luminance of 364 cd m−2 at a current density of 123 mA cm−2, giving external and internal quantum efficiencies of 0.1% and 0.4%, respectively. Which is more than 100x lower performance than Osram LEDs, but not so bad in comparison with common OLEDs, which achieve about 5 % EQE.
3 / 5 (1) Aug 06, 2014
Reading that perovskite contains lead, I wonder about disposal and toxicity issues.

I would have wondered in what way do we need more flat panel displays, but they kind of hint that they see this as a boon to advertisers.
5 / 5 (1) Aug 06, 2014
I would have wondered in what way do we need more flat panel displays,

I could go for some 'flat panel' wallpaper (as in 'Total Recall' (the Arnie S. one)).
Along with wallpaper audio speakers that would eliminate the need for cluttering up space with TV/HiFI systems.
4.7 / 5 (3) Aug 06, 2014
@alfie: The existing LED already contain some arsenic and nickel, lead, copper and silver. Most of electric waste already contains lead from solder in much larger quantities. And recently the physicists succeeded with replacement of lead with tin in perowskite, so we can just wait for another progress in this area.
not rated yet Aug 06, 2014
Reading that perovskite contains lead, I wonder about disposal and toxicity issues. ...

Understand that all of these rare earth elements have environmental issues. A tiny amount of Arsenic for example will kill you much more quickly than the same amount of Lead and Gallium Arsenide is ubiquitous in currently mass produced LEDs, lasers ...
Da Schneib
1 / 5 (1) Aug 08, 2014
Reading that perovskite contains lead,
Some perovskites do. Some don't.
3 / 5 (2) Aug 09, 2014
When are you going to get it right? Perovskites are a class of crystals, not a single unique material.