Nano-material to revolutionise computing
The
new material - made up of layers of crystal known as molybdenum oxides -
has unique properties that encourage the free flow of electrons at
ultra-high speeds.
SYDNEY: A two-dimensional nano-material could usher in nano-transistors and help revolutionise electronics, including ultra fast computing, says an Australian research.
The new material - made up of layers of crystal known as molybdenum oxides - has unique properties that encourage the free flow of electrons at ultra-high speeds.
Researchers from Commonwealth Scientific and Industrial Research Organisation (CSIRO) explain how they adapted a revolutionary material known as graphene to create a new conductive nano-material, the journal Advanced Materials reports.
Graphene created by scientists in Britain won its inventors a Nobel Prize in 2010. While the new material supports high speed electrons, its physical properties stump high-speed electronics, according to a CSIRO statement.
Serge Zhuiykov from the CSIRO said the new nano-material was made up of layered sheets - similar to graphite layers that make up a pencil's core.
"Within these layers, electrons are able to zip through at high speeds with minimal scattering," Zhuiykov said.
"The importance of our breakthrough is how quickly and fluently electrons - which conduct electricity - are able to flow through the new material," he added. Royal Melbourne Institute of Technology (RMIT) doctoral researcher Sivacarendran Balendhran led the study.
Kourosh Kalantar-zadeh, professor at the RMIT, said the researchers were able to remove "road blocks" that could obstruct the electrons, an essential step for the development of high-speed electronics.
"While more work needs to be done before we can develop actual gadgets using this new 2D nano-material, this breakthrough lays the foundation for a new electronics revolution and we look forward to exploring its potential," he adds.
The new material - made up of layers of crystal known as molybdenum oxides - has unique properties that encourage the free flow of electrons at ultra-high speeds.
Researchers from Commonwealth Scientific and Industrial Research Organisation (CSIRO) explain how they adapted a revolutionary material known as graphene to create a new conductive nano-material, the journal Advanced Materials reports.
Graphene created by scientists in Britain won its inventors a Nobel Prize in 2010. While the new material supports high speed electrons, its physical properties stump high-speed electronics, according to a CSIRO statement.
Serge Zhuiykov from the CSIRO said the new nano-material was made up of layered sheets - similar to graphite layers that make up a pencil's core.
"Within these layers, electrons are able to zip through at high speeds with minimal scattering," Zhuiykov said.
"The importance of our breakthrough is how quickly and fluently electrons - which conduct electricity - are able to flow through the new material," he added. Royal Melbourne Institute of Technology (RMIT) doctoral researcher Sivacarendran Balendhran led the study.
Kourosh Kalantar-zadeh, professor at the RMIT, said the researchers were able to remove "road blocks" that could obstruct the electrons, an essential step for the development of high-speed electronics.
"While more work needs to be done before we can develop actual gadgets using this new 2D nano-material, this breakthrough lays the foundation for a new electronics revolution and we look forward to exploring its potential," he adds.
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