22 April 2014
Last updated at 09:03 ET
In graphene, carbon atoms are arranged in a honeycomb structure, one atom thick
Graphene is thin, strong, flexible and electrically
conductive, and has the potential to transform electronics as well as
other technologies.
An Irish-UK team poured graphite powder (used in pencil leads) into a blender, then added water and dishwashing liquid, mixing at high speed.
The results are reported in the journal Nature Materials.
Because of its potential uses in industry, a number of researchers have been searching for ways to make defect-free graphene in large amounts.
The material comprises a one-atom-thick sheet of carbon atoms arranged in a honeycomb structure. Graphite - mixed with clay to produce the lead in pencils - is effectively made up of many layers of graphene stacked on top of one another.
Jonathan Coleman from Trinity College Dublin and colleagues tested out a variety of laboratory mixers as well as kitchen blenders as potential tools for manufacturing the wonder material.
However, it's not advisable to try this at home. The precise
amount of dishwashing fluid that's required is dependent on a number of
different factors and the black solution containing graphene would need
to be separated afterwards.
But the researchers said their work "provides a significant step" towards deploying graphene in a variety of commercial applications.
The scientists have been working with UK-based firm Thomas Swan to scale up the process, with the aim of building a pilot plant that could produce a kilo of graphene per day by the end of the year.
In addition to its potential uses in electronics, graphene might have applications in water treatment, oil spill clean-up and even in the production of thinner condoms.
In 2010, Manchester University researchers Andre Geim and Konstantin Novoselov shared the Nobel Prize in Physics for their discovery of graphene. They published details of their advance in the academic journal Science in 2004.
They famously used sticky tape to peel off the layers of graphene from graphite.
Graphene can currently be grown atom-by-atom via a process called chemical vapour deposition. However, while this can produce metre-scale sheets of graphene, they also contain defects which can inhibit their properties.
Graphene 'wonder material' made with kitchen blender
In graphene, carbon atoms are arranged in a honeycomb structure, one atom thick
Scientists have outlined how they managed to make the "wonder material" graphene using a kitchen blender.
An Irish-UK team poured graphite powder (used in pencil leads) into a blender, then added water and dishwashing liquid, mixing at high speed.
The results are reported in the journal Nature Materials.
Because of its potential uses in industry, a number of researchers have been searching for ways to make defect-free graphene in large amounts.
The material comprises a one-atom-thick sheet of carbon atoms arranged in a honeycomb structure. Graphite - mixed with clay to produce the lead in pencils - is effectively made up of many layers of graphene stacked on top of one another.
Jonathan Coleman from Trinity College Dublin and colleagues tested out a variety of laboratory mixers as well as kitchen blenders as potential tools for manufacturing the wonder material.
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Graphene
- Graphene is a form of carbon that exists as a sheet, one atom thick
- Atoms are arranged into a two-dimensional honeycomb structure
- Discovery of graphene announced in 2004 by the journal Science
- About 100 times stronger than steel; conducts electricity better than copper
- Touted as possible replacement for silicon in electronics
- About 1% of graphene mixed into plastics could make them conductive
They showed that the shearing
force generated by a rapidly rotating tool in solution was sufficiently
intense to separate the layers of graphene that make up graphite flakes
without damaging their two-dimensional structure.
But the researchers said their work "provides a significant step" towards deploying graphene in a variety of commercial applications.
The scientists have been working with UK-based firm Thomas Swan to scale up the process, with the aim of building a pilot plant that could produce a kilo of graphene per day by the end of the year.
In addition to its potential uses in electronics, graphene might have applications in water treatment, oil spill clean-up and even in the production of thinner condoms.
In 2010, Manchester University researchers Andre Geim and Konstantin Novoselov shared the Nobel Prize in Physics for their discovery of graphene. They published details of their advance in the academic journal Science in 2004.
They famously used sticky tape to peel off the layers of graphene from graphite.
Graphene can currently be grown atom-by-atom via a process called chemical vapour deposition. However, while this can produce metre-scale sheets of graphene, they also contain defects which can inhibit their properties.
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