Nanotechnology
| Researchers have developed a new lithography technique that uses nanoscale spheres to create 3D structures with biomedical, electronic and photonic applications. The new technique is less expensive than conventional methods and does not rely on stacking two-dimensional patterns to create 3D structures. |
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Researchers from North Carolina State University have developed a new lithography technique that uses nanoscale spheres to create three-dimensional structures with biomedical, electronic and photonic applications. The new technique is significantly less expensive than conventional methods and does not rely on stacking two-dimensional patterns to create the 3D structures.
The paper, “Sculpting Asymmetric Hollow-Core Three-Dimensional Nanostructures Using Colloidal Particles,” was published in the journal Small.
“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.
Most conventional lithography uses a variety of techniques to focus light on a photosensitive film to create 2D patterns. These techniques rely on specialized lenses, electron beams or lasers – all of which are extremely expensive. Other conventional techniques use mechanical probes, which are also costly. To create 3D structures, the 2D patterns are essentially printed on top of each other.
"Our approach reduces the cost of nanolithography to the point where it could be done in your garage." |
The nanospheres are transparent, but bend and scatter the light that passes through them in predictable ways according to the angle that the light takes when it hits the nanosphere. The researchers control the nanolithography by altering the size of the nanosphere, the duration of light exposures, and the angle, wavelength and polarization of light. The researchers can also use one beam of light, or multiple beams of light, allowing them to create a wide variety of nanostructure designs.
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The researchers have also shown that they can get the nanospheres to self-assemble in a regularly-spaced array, which in turn can be used to create a uniform pattern of 3D nanostructures.
“This could be used to create an array of nanoneedles for use in drug delivery or other applications,” says Xu Zhang, a Ph.D. student in Chang’s lab and lead author of the paper.
The new technique could also be used to create nanoscale “inkjet printers” for printing electronics or biological cells, or to create antennas or photonic components.
“For this work, we focused on creating nanostructures using photosensitive polymers, which are commonly used in lithography,” Zhang says. “But the technique could also be used to create templates for 3D structures using other materials.”
The researchers are currently looking at several additional ways to manipulate the technique to control the shape of resulting structures.
“We’re exploring the use of nanosphere materials other than polystyrene, as well as nanoparticle shapes other than spheres,” Chang says. “And ultimately we want to look at ways of controlling the placement of particles on the photosensitive film in patterns other than uniform arrays.”
SOURCE NC State University
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