Graphene - Page 8

Researchers at Stanford University have successfully developed a brand new concept of OLEDs with a few nanometer of graphene as transparent conductor. This paved the way for inexpensive mass production of OLEDs on large-area low-cost flexible plastic substrate, which could be rolled up like wallpaper and virtually applied to anywhere you want. The researchers say that Graphene has the potential to be transparent, high-performance, highly conductive and cheaper by several orders of magnitude than current ITO based solutions. Interestingly just a few weeks ago we reported that Graphene can be used to make organic lighting devices, too.

Graphene OLED

Traditionally, indium tin oxide (ITO) is used in OLEDs, but indium is rare, expensive and difficult to recycle. Scientists have been actively searching for an alternative candidate.

The next generation of optoelectronic devices requires transparent conductive electrodes to be lightweight, flexible, cheap, environmental attractive, and compatible with large-scale manufacturing methods. Graphene (a single layer of graphite) is becoming a very promising candidate due to its unique electrical and optical properties. Very recently, Junbo Wu et al., researchers at Stanford University, successfully demonstrated the application of graphene in OLEDs for the first time.

Researchers from Sweden and the US have produced a new transparent lighting component that is made from Graphene. They say it is cheap to make and fully recyclable, and might be an alternative to OLED Lighting. The new device is called an Organic Light-emitting Electrochemical Cell, or LEC. The Graphene is used for an electrode. LECs can be made using a roll-to-roll process, because all of its parts can be made from liquid solutions.

There's very little info on that new device (such as what is the actual light-emitting material, what's the efficiency of it, etc.).

We're happy to announce a new addition to the Metalgrass site network: Graphene-Info. Graphene is a sheet, one-atom-thick of carbon atom, in a honeycomb crystal lattice. If you use many layers of graphene, stacked one on top of the other, you’ll get Graphite. Graphene has many uses - Spintronics, sensors, ICs (for example a transparent backplane for OLEDs), ultra-capacitors and more.

We hope you'll enjoy the new site...

Graphene has great mechanical and electronic properties (it is basically an atom-thick strong carbon nanotube), but up until now it's been very difficult to make in a large size. Now scientists say they can make a centimetre-scale samples of the stuff.

If/When this technique actually works, it could lead to create films that are transparent and flexible - which could be used in displays (also in solar cells).One of the problems with flexible OLEDs is the backplane. Some work on metal-foil, and some on plastic, but Graphene could prove to be the ideal material.