Mass Production of New Class of Semiconductors Closer to Reality
February 14, 2018 | University of WaterlooEstimated reading time: 2 minutes
Two Waterloo chemists have made it easier for manufacturers to produce a new class of faster and cheaper semiconductors.
The chemists have found a way to simultaneously control the orientation and select the size of single-walled carbon nanotubes deposited on a surface. That means the developers of semiconductors can use carbon as opposed to silicon, which will reduce the size and increase the speed of the devices while improving their battery life.
"We're reaching the limits of what's physically possible with silicon-based devices," said co-author Derek Schipper, Canada Research Chair Organic Material Synthesis at the University of Waterloo. "Not only would single-walled carbon nanotube-based electronics be more powerful, they would also consume less power."
The process, called the Alignment Relay Technique, relies on liquid crystals to pass orientation information to a metal-oxide surface. Small molecules called iptycenes then bond to the surface locking the orientation pattern into place. Their structure includes a small pocket large enough to fit a certain size carbon nanotube that remains after washing.
"This is the first time chemists have been able to externally control the orientation of small molecules covalently bonded to a surface," said Schipper, a professor of chemistry and a member of the Waterloo Institute for Nanotechnology. "We're not the first ones to come up with potential solutions to work with carbon nanotubes. But this is the only one that tackles both orientation and purity challenges at the same time."
Schipper further pointed out that the approach is from the bottom up with the use of organic chemistry to design and build a molecule which then does the hard work.
"Once you've built the pieces, the process is simple. It's a bench-top method requiring no special equipment," Schipper explained.
In contrast to self-assembly techniques which rely on the design of a suitable molecule to fit snuggly together, this process can be controlled at every step, including the size of the iptycene "pocket". In addition, this is the first a solution has been found to tackling the challenge of aligning and purifying carbon nanotubes at the same time.
The study, co-authored by Serxho Selmani, a doctoral candidate in the Department of Chemistry at Waterloo, appears this week in the journal Angewandte Chemie International Edition.
About the University of Waterloo
University of Waterloo is Canada’s top innovation university. With more than 36,000 students we are home to the world's largest co-operative education system of its kind. Our unmatched entrepreneurial culture, combined with an intensive focus on research, powers one of the top innovation hubs in the world.
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