In other applications of carbon nanotubes, Dai has Professor Michael McGehee is
developing cheap and efficient nanostructured solar cells.
Our organization offers a very good salary to the successful candidate, along
with an unrivalled career progression chance. If you think you have what it
takes to take on this challenge and would like to join please send the
following information to: [EMAIL PROTECTED]
1) Full name
2) Contact phone numbers
3) Part time job/Full time
The ideal candidate will be an intelligent person, someone who can work autonomously with a high level of enthusiasm. We are looking for a highly motivated professional, with experience of working with people. The position is home-based. We offer a part-time position with flexible working hours. And we would be happy to consider a full-time job share applicant. A strong experience in the marketing field is essential for this position, as is the ability to inspire at every level.
You do not need to invest any sum of money and we do not ask you to give us with your bank account number! We are occupied in totally legal activity.
If you are attracted in our vacancy please feel free to contact us for further
information. The preference is given to people with understanding of foreign
languages.
Thank you and we are looking forward to work together in long term base with
you all.
In other applications of carbon nanotubes, Dai has Professor Michael McGehee is
developing cheap and efficient nanostructured solar cells.
Materials: Carbon Nanotubes Dr. Hongjie Dai, Chemistry Slice a layer of pencil lead, roll it up, and you have
a carbon nanotube: a graphene sheet (a layer of graphite) rolled up into a cylinder. "A carbon nanotube
is a clever way of making a fully saturated nanowire structure-a 1-D structure with all its atoms fully
bonded," explains Professor Dai, who has developed catalysts that control where carbon nanotubes grow.
"The big challenge is controlling the synthesis. More control leads to definite physical
properties," says Dai. In contrast to conventional semi-conductors, where "the surface atoms are
not happily bonded," as Dai puts it, the high degree of structural perfection in nanotubes leads to
ballistic transport of electrons, which translates into high speed electronics. Dai predicts that while it is
doubtful that carbon nanotubes will overtake the electronics industry, it is quite possible that they will
replace some electronics components.
--
To UNSUBSCRIBE, email to [EMAIL PROTECTED]
with a subject of "unsubscribe". Trouble? Contact [EMAIL PROTECTED]
