«It's exciting to take our understanding of how light scatters by particles and apply it to
nanolithography in order to come up with something that could actually help people.»
Not exact matches
But with the resolution afforded by dip - pen
nanolithography, one can prepare that kind of sensor chip
in an area about the size of a penny.
A direct - write «dip - pen»
nanolithography (DPN) has been developed to deliver collections of molecules
in a positive printing mode.
Low energy electrons are ubiquitous and are known to play important role
in variety of phenomena relevant to astrochemistry (where they participate
in synthesis of new molecules),
in radiation biology (where they cause chemical changes
in living cell, plasma chemistry), atmospheric chemistry, radioactive waste management and
nanolithography — to name but a few.
«Our approach reduces the cost of
nanolithography to the point where it could be done
in your garage,» says Dr. Chih - Hao Chang, an assistant professor of mechanical and aerospace engineering at NC State and senior author of a paper on the work.
The researchers make the film by first using a
nanolithography developed
in Chang's lab to create highly - ordered pores
in a polymer substrate.