Researchers have made the equivalent of a tiny dimmer switch out of carbon
nanotubes—the tubular cousins of buckyballs. They found the electrical
resistance of a nanotube contact depended on its orientation on a graphite
surface. The nanotubes have a hexagonal atomic lattice, and the change in
resistance appeared as the lattice interlocked with the atoms of the graphite.
The effect might lead to molecular switches that vary current as they are
turned, says Mike Falvo, a physicist at the University of North Carolina
(Science, vol 290, p 1742).
To continue reading, today with our introductory offers
Advertisement
More from New Scientist
Explore the latest news, articles and features
Popular articles
Trending New Scientist articles
1
The world's fastest spider tops 3.5 metres per second
2
Where, when and how to watch the 2026 solar eclipse
3
Babies are born with the neural foundations for maths
4
Slowdown of AMOC ocean current may be gradual and reversible
5
We’ve uncovered a master gene that switches on human development
6
The best new science-fiction novels published in July 2026
7
I’m the first person whose life was saved by CRISPR base editing
8
US government wants to have a useful quantum computer by 2028
9
Remote-controlled cockroach swarm can now breathe underwater
10
The race to understand how and when Thwaites glacier will collapse



