OLEDs: A bright future for lighting

Organic Light Emitting Diodes (OLEDs) are an emerging technology that deliver bright, thin, highly efficient displays with excellent colour purity. They work by taking an organic material, either small molecules or polymers, and sandwiching them between two electrodes.

The Challenge

Improving the way we light our homes and offices

When Thomas Edison patented the incandescent light bulb in 1879 it would have been hard for him to predict just how much his invention would revolutionise the way we use energy.

Gone were the days of huddling around gas and oil lanterns. The light bulb led to changes in building design, the length of the workday and sparked the creation of entirely new industries.

Since then, scientists and engineers have been continuously trying to improve the way we light our homes and offices.

In the 1900s, energy shortages led to breakthroughs in the use of fluorescents.

In more recent years it has been all about improving affordability and efficiency.

Our Response

OLEDs offering flexible opportunities

The pendant OLED light © Benjamin Huang

OLEDs are an emerging technology that deliver bright, thin, highly efficient displays with excellent colour purity. They work by taking an organic material, either small molecules or polymers, and sandwiching them between two electrodes.

As OLEDs are so thin, they are also highly flexible – opening up huge possibilities to change the way we do things.

To showcase the potential of this technology, Australian designer Andy Zhou has created a flexible OLED luminaire and boy does it have all the bells and whistles.

The Results

Plus Pendant Light shows a bright future

Working with our flexible electronics researchers, Andy created the Plus Pendant light as a final year project for his industrial design degree at Monash University. The pendant hit the world stage in 2014 as part of the Melbourne Movement stand at the Milan Design Festival.

Using 36 OLED panels, the pendant shows off the technology’s razor thin profile and flexibility. The frame flexes up and down to change the characteristics of the light, ranging from an area light to a spot light. This unseen mechanism is achieved by clever use of magnets and tensile wiring. 

Our goal is to develop the materials and processes to enable the low-cost manufacture of flexible electronics technologies such as displays, lighting and solar cells. By partnering with industry, we're creating new opportunities for manufacturing in Australia and overseas.

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