VE3007 KJ2005X1-BA1 12P4375X012 | EMERSON | Changing the resonance of plasma substructures

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VE3007 KJ2005X1-BA1 12P4375X012 | EMERSON | Changing the resonance of plasma substructures

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Nanotemplate lithography has the same concept as template printing in art, but the difference lies in size. VE3007 KJ2005X1-BA1 12P4375X012 and others fabricated a template with a preset hollow pattern on silicon nitride (SiN) film, and then placed the template on a polymer substrate and deposited a layer of metal. After removing the template, a transfer of nanoparticle patterns with geometric shapes almost identical to the template opening can be obtained. After sedimentation, the template can be cleaned and reused.

The team is currently able to create a wide range of nano patterns on flexible substrates, such as on unconventional substrates such as polydimethylsiloxane (PDMS), polydimethylene-C, and low-density polyethylene film (cling film), successfully producing plasma antenna arrays and metamaterials. For example, they produce sharp nanostructures with precision better than 10 nm on PDMS substrates, and VE3007 KJ2005X1-BA1 12P4375X012 can therefore produce a large number of bow shaped antenna structures with side lengths of less than 100 nm. In addition, this nanostructure can also be tuned – applying mechanical strain to a bendable substrate can alter the resonance of the plasma substructure.

Altug stated that the existing nanofabrication technology is a planar process, and it is quite difficult for VE3007 KJ2005X1-BA1 12P4375X012 to directly produce nanopatterns on non planar substrates. Their approach is to first fabricate the nanostructure on a flat, bendable polymer film, and then use this film as a carrier to directly transfer the nanostructure to a curved surface. If necessary, selectively etch to remove the polymer and leave the nanostructure on the surface. The team successfully transferred plasma nanoparticles to the surface of optical fibers using this technology, and the resulting “optical probe” can be used to monitor changes in blood flow or deep tissues in the body, as well as to monitor polluted and harsh environments.

Compared to soft lithography, which requires multiple pattern transfers, nano template lithography can easily produce various nanostructures in just one step, saving both time and money. The research team plans to optimize this process technology.

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