An international team of researchers has used boron-doped graphene to
create ultrasensitive gas sensors that can detect noxious gas molecules
in extremely low concentrations.
Graphene on its own is a highly sensitive gas sensor. When infused with
boron atoms, the resulting sensors were able to detect ammonia molecules
in parts per million, and nitrogen oxides in parts per billion.
Compared to pure graphene, this equates to a 27 times greater
sensitivity to nitrogen oxides and 10,000 times greater sensitivity to
ammonia. The work, published in the Proceedings of the National Academy
of Sciences, could pave the way for sensors for a range of other
materials, say the researchers.
Drawing of boron doped graphene.
“This is a project that we have been pursuing for the past four years, ”
said Mauricio Terrones, professor of physics, chemistry and materials
science at Pennsylvania State University.
“We were previously able to dope graphene with atoms of nitrogen, but
boron proved to be much more difficult. Once we were able to synthesise
what we believed to be boron graphene, we collaborated with experts in
the United States and around the world to confirm our research and test
the properties of our material.”
The project included international collaboration with Konstantin
Novoselov’s lab at Manchester University, where the transport mechanism
of the sensors was studied. Novoselov was a joint recipient of the 2010
Nobel Prize in Physics for his work on graphene, and is one of the
director’s of the National Graphene Institute in Manchester.
Collaborators from Belgium, China, Japan, and the Honda Research
Institute in Columbus, Ohio also contributed to the project.
“This multidisciplinary research paves a new avenue for further
exploration of ultrasensitive gas sensors,” said Avetik Harutyunyan,
chief scientist and project leader at the Honda Research Institute.
“We believe that further development of this technology may break the
parts per quadrillion level of detection limit, which is up to six
orders of magnitude better sensitivity than current…sensors.”
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