Scientists create jewel-toned organic phosphorescent crystals
February 15th, 2011 - 6:24 pm ICT by ANILondon, Feb 15 (ANI): University of Michigan researchers have created a new class of material that shines with phosphorescence, which they say could lead to cheaper, more efficient and flexible display screens, among other applications.
Jinsang Kim and his colleagues made metal-free organic crystals that are white in visible light and radiate blue, green, yellow and orange when triggered by ultraviolet light.
By changing the materials’ chemical composition, the researchers can make them emit different colours.
The light comes from molecules of oxygen and carbon known as “aromatic carbonyls,” compounds that produce phosphorescence, but weakly and under special circumstances such as extremely low temperatures.
And the aromatic carbonyls form strong halogen bonds with halogens in the crystal to pack the molecules tightly. This arrangement suppresses vibration and heat energy losses as the excited electrons fall back to the ground state, leading to strong phosphorescence.
The OLEDs of today aren’t 100 percent organic, or made of carbon compounds. The organic materials used in them must be spiked with metal to get them to glow.
“Purely organic materials haven’t been able to generate meaningful phosphorescence emissions. We believe this is the first example of an organic that can compete with an organometallic in terms of brightness and color tuning capability,” said Kim.
The new phosphors exhibit “quantum yields” of 55 percent.
These new compounds can bring the price down even further, because they don’t require precious metals. They’re made primarily of inexpensive carbon, oxygen, chlorine and bromine.
“This is in the beginning stage, but we expect that it will not be long before our simple materials will be available commercially for device applications,” Kim said.
“And we expect they will bring a big change in the LED and solid-state lighting industries because our compounds are very cheap and easy to synthesize and tune the chemical structure to achieve different colors and properties.”
The study appears in Nature Chemistry. (ANI)
- Sensor 'could protect first responders against chemical hazards' - May 02, 2011
- Tiny gold and silver nanoparticles could revolutionize optics - Dec 04, 2010
- New liquid crystal could improve digital displays - Oct 06, 2010
- Water-gel-based 'artificial leaves' that produce electricity - Sep 25, 2010
- Ozone and nicotine a bad combo for asthma: Study - Aug 17, 2010
- New 'iron sandwich' solar cells could help 'buildings generate electricity' - Jan 31, 2011
- No 'safe haven' for organic molecules on Mars - Jun 11, 2010
- Scientists create synthetic DNA-like crystals for CO2 capture - Feb 12, 2010
- New kind of optical fiber paves way for improved surgical and medical lasers - Feb 26, 2011
- Dead Sea air filled with high levels of oxidized Mercury - Nov 30, 2010
- Rhodium helpful in checking food adulteration - Jul 22, 2011
- Artificial cilia that respond to heat and light created - Sep 24, 2010
- Ultra-sensitive sensor to help detect cancer signs, hidden explosives - Mar 22, 2011
- Accidentally discovered catalyst strips CO2 from air - Jan 15, 2010
- Now steps taken in labs to create 'inorganic life' - Sep 18, 2011
Tags: carbon compounds, chemical composition, device applications, energy losses, excited electrons, halogens, heat energy, lighting industries, london feb, michigan researchers, oleds, organic crystals, organic materials, organometallic, phosphorescence, phosphors, precious metals, quantum yields, solid state lighting, special circumstances