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Liquid Crystal ‘Flowers’ Into Lenses

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A 3-D, liquid-crystal array shaped like a flower can be used as a lens similar to an insect’s compound eye, a team of material scientists, chemical engineers and physicists has found.

The University of Pennsylvania team has been working to use liquid crystals as a medium for structure assembly, a growing nanotechnology field known as directed assembly. In earlier work, the team produced patterns of “defects” — useful disruptions in the repeating patterns found in liquid crystals — in nanoscale grids and rings, but they used tiny posts as templates. Their new work adds a more complex pattern out of an even simpler template: a 3-D array shaped like a flower.


 A team from the University of Pennsylvania has made another advance in their effort to use liquid crystals as a medium for assembling structures. Their earlier studies produced patterns of “defects,” useful disruptions in the repeating patterns found in liquid crystals, in nanoscale grids and rings. The new study adds a more complex pattern out of an even simpler template: a 3-D array shaped like a flower. The black dot at center is a silica bead that acts as a template for the flower’s pattern. Courtesy of the University of Pennsylvania.


“Before we were growing these liquid crystals on something like a trellis, a template with precisely ordered features,” said Randall Kamien, a professor in the Department of Physics and Astronomy. “Here, we’re just planting a seed.”

The “seeds” they used were silica beads — essentially, polished grains of sand. Planted at the top of a pool of liquid crystal, flowerlike patterns of defects grow around each bead.

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The key difference between the template in this experiment and ones in the research team’s earlier work was the shape of the interface between the template and the liquid crystal.

“Not only is the interface at an angle, it’s an angle that keeps changing,” Kamien said. “The way the liquid crystal responds to that is that it makes these petallike shapes at smaller and smaller sizes, trying to match the angle of the bead until everything is flat.”

Surface tension on the bead also makes it so these petals are arranged in a tiered, convex fashion. And because the liquid crystal can interact with light, the entire assembly can function as a lens, focusing light to a point underneath the bead.

“It’s like an insect’s compound eye, or the mirrors on the biggest telescopes,” Kamien said. “As we learn more about these systems, we’re going to be able to make these kinds of lenses to order and use them to direct light.”

This type of directed assembly could be useful in making optical switches and in other applications, the team said.

The team included Kathleen Stebe, the School of Engineering and Applied Science’s deputy dean for research and a professor in Chemical and Biomolecular Engineering; and Shu Yang, a professor of Materials Science and Engineering, and Chemical and Biomolecular Engineering. Members of their labs also contributed to the new study, including lead author Daniel Beller, Mohamed Gharbi and Apiradee Honglawan.

The work was published in Physical Review X (doi: 10.1103/PhysRevX.3.041026).  

For more information, visit: www.upenn.edu

Published: December 2013
Glossary
astronomy
The scientific observation of celestial radiation that has reached the vicinity of Earth, and the interpretation of these observations to determine the characteristics of the extraterrestrial bodies and phenomena that have emitted the radiation.
liquid crystal
Liquid crystals are a state of matter that exhibits properties intermediate between those of conventional liquids and solid crystals. In a liquid crystal, the molecules are ordered like those in a crystal, but they can still flow like a liquid. This unique combination of structural order and fluidity gives liquid crystals their distinctive characteristics and makes them valuable in various technological applications, particularly in display technology. Key features and characteristics of...
nano
An SI prefix meaning one billionth (10-9). Nano can also be used to indicate the study of atoms, molecules and other structures and particles on the nanometer scale. Nano-optics (also referred to as nanophotonics), for example, is the study of how light and light-matter interactions behave on the nanometer scale. See nanophotonics.
AmericasApiradee Honglawanastronomycompound eyeDaniel Bellerdirected assemblyImagingKathleen Stebelensesliquid crystalMaterials & ChemicalsMohamed GharbinanoPennsylvaniaRandall KamienResearch & TechnologyShu YangTech PulseUniversity of Pennsylvania

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