2. Sir Konstantin Novoselov showed Chancellor George Osborne the bulb when he opened the institute
A light bulb made with graphene - said by its UK developers to be the first commercially viable
consumer product using the super-strong carbon - is to go on sale later this year.
The dimmable bulb contains a filament-shaped LED coated in graphene. It was designed at
Manchester University, where the material was discovered.
It is said to cut energy use by 10% and last longer owing to its conductivity.
The National Graphene Institute at the university was opened this month.
The light bulb was developed by a Canadian-financed company called Graphene Lighting - one of
whose directors is Prof Colin Bailey, deputy vice-chancellor at the University of Manchester.
It is expected to be priced lower than some LED bulbs, which can cost about £15 each.
Based on traditional light bulb design, the use of graphene allows it to conduct electricity and heat
more effectively.
Prof Bailey told the BBC: "The graphene light bulb will use less energy. We expect it to last longer.
The manufacturing costs are lower and it uses more and more sustainable components."
The discovery of graphene in 2004 by Andre Geim and Konstantin Novoselov, two Russian-born
scientists at the University of Manchester, earned the pair the Nobel Prize for Physics and
knighthoods.
A micro-thin layer of graphene is stronger than steel and it has been dubbed a "wonder material"
because of its potential uses.
3. The National Graphene Institute was opened at the university this month
The government has invested £38m in the National Graphene Institute via the Engineering and
Physical Sciences Research Council, with an additional £23m provided by the European Regional
Development Fund.
Chancellor George Osborne, who opened the site on 20 March, has said he hopes the UK can see off
competition from China and South Korea to become a centre of excellence in graphene technology.
More than 35 companies worldwide have already partnered with the university to develop projects.
The race is now on to develop other practical and commercial uses, including lighter but more
robust car and aircraft frames and false teeth. The material has already been incorporated into
products including tennis rackets and skis.
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