Open menu

Nanotechnology General News

The latest news from academia, regulators
research labs and other things of interest

Posted: Sep 28, 2015

New method for building on an atomic scale

(Nanowerk News) UK scientists have pioneered a new way of manipulating several thousand atoms at a time, paving the way for building nanoscale electronic devices more quickly and easily at room temperature.
Drawing with atoms
In 1992 the very first man-made atomic structure was created by using a scanning tunnelling microscope (STM) to gently nudge individual atoms into a tiny nanometer scale logo for IBM.
Scanning Tunnelling Microscope
The team uses a Scanning Tunnelling Microscope (STM) to inject atoms onto a surface in a precise pattern, enabling them to build nanoscale devices more quickly and easily than before
However, using this method atoms must be placed one-by-one, making the process very time-consuming, with even the most advanced microscopes taking many hours to position just a few atoms.
In contrast, the new technique developed by the University of Bath in collaboration with the University of Birmingham, is able to move thousands of atoms simultaneously, but with similar precision.
In their new method, the tip of the STM injects electrons onto a surface decorated with benzene molecules. The electrons can travel across the surface some tens of nanometers until they encounter one of the benzene molecules sitting on the surface, which causes the benzene to fly off into the gas phase.
By carefully comparing the precise atomic position of the benzene molecules before and after the electron injections, the team was able to directly observe how high energy or “hot” electrons behave at room temperature for the first time.
Hot electrons
Hot electrons can leak out of silicon transistors and may limit the miniaturisation of computer circuits.They also play a critical role in transforming energy from light to electricity in photovoltaics.
Their findings, published in the journal Nature Communications ("Atomically resolved real-space imaging of hot electron dynamics") show that instead of moving in straight lines as anticipated, they knock around like a ball in a pinball machine.
Dr Peter Sloan from the University of Bath’s Department of Physics, explained: “Hot electrons are important in many processes but are really difficult to observe due to their short lifetimes, generally a millionth of a billionth of a second.
“We were surprised to find that the hot electrons do not travel in straight lines, but instead behave as if they were a ball in a pin-ball machine, diffusing across the surface.
“This confirms that Einstein’s theory of Brownian motion of electrons in semiconductors works even on the nanoscale. A finding that you just can’t observe with the “normal” low temperature experiments.
hot electron experiment
The team's experiments show that high energy or "hot" electrons don't move in straight lines as anticipated.
“Our findings help us understand the fundamental physics underlying the behaviour of hot electrons and will help pave the way for building new nanotechnology devices with atomic precision.”
Professor Richard Palmer at the University of Birmingham commented: "The Birmingham-Bath program is providing us with new eyes to visualise very fast electronic processes and so is relevant not just to electronics and computing but also improving the performance of solar cells designed to capture renewable energy.
“It's great to see British Universities collaborating so closely together."
91 per cent of our physics research was defined as ‘world-leading’ or ‘internationally excellent’ in the REF 2014 research assessment, placing our Department of Physics 13th amongst all UK departments for its research activities.
The real-world impact of our research – its influence on the economy, society, quality of life etc. - was judged to be particularly strong with 100 per cent being world-leading or internationally excellent, ranking us fourth amongst all UK physics departments for the impact of our research.
Source: University of Bath
Subscribe to a free copy of one of our daily
Nanowerk Newsletter Email Digests
with a compilation of all of the day's news.
If you liked this article, please give it a quick review on reddit or StumbleUpon. Thanks!
These articles might interest you as well: