A new type of carbon nanotube material for handheld sensors has been developed that will be quicker and better at sniffing out explosives, deadly gases and illegal drugs. This was developed by the University of Utah engineers. A carbon nanotube is a cylindrical material that is a hexagonal or six-sided array of carbon atoms rolled up into a tube. Carbon nanotubes are known for their strength and high electrical conductivity and are used in products from baseball bats and other sports equipment to lithium-ion batteries and touchscreen computer displays.
Vaporsens, a university spin-off company, plans to build a prototype handheld sensor by year's end and produce the first commercial scanners early next year, says co-founder Ling Zang, a professor of materials science and engineering and senior author of a study of the technology published online Nov. 4 in the journal Advanced Materials.
The new kind of nanotubes also could lead to flexible solar panels that can be rolled up and stored or even "painted" on clothing such as a jacket, he adds.
Zang and his team found a way to break up bundles of the carbon nanotubes with a polymer and then deposit a microscopic amount on electrodes in a prototype handheld scanner that can detect toxic gases such as sarin or chlorine, or explosives such as TNT.
When the sensor detects molecules from an explosive, deadly gas or drugs such as methamphetamine, they alter the electrical current through the nanotube materials, signaling the presence of any of those substances, Zang says.
"You can apply voltage between the electrodes and monitor the current through the nanotube," says Zang, a professor with USTAR, the Utah Science Technology and Research economic development initiative. "If you have explosives or toxic chemicals caught by the nanotube, you will see an increase or decrease in the current."
Advertisement
Zang says scanners with the new technology "could be used by the military, police, first responders and private industry focused on public safety."
Advertisement