Surf Wiki
Save to docs
general/nanomaterials

From Surf Wiki (app.surf) — the open knowledge base

Sculptured thin film

and R. Messier, Sculptured Thin Films: Nanoengineered Morphology and Optics (SPIE Press, Bellingham, WA, USA, 2005).

Forms

These forms can be:

  1. two-dimensional, ranging from the simple slanted columns and chevrons to the more complex C- and S-shaped morphologies
  2. three-dimensional, including simple helixes and superhelixes
  3. combinations of two- and three-dimensional forms.

Properties

The column diameter and the column separation normal to the thickness direction of any STF are nominally constant. The column diameter can range from about 10 to 300 nm, while the density may lie between its theoretical maximum value to less than 20% thereof. The crystallinity must be at a scale smaller than the column diameter. The chemical composition is essentially unlimited, ranging from insulators to semiconductors to metals. Most recently, polymeric STFs have been deposited by combining physical and chemical vapor deposition processes; and deposition on micropatterned substrates has also been carried out.

Uses

To date, the chief applications of STFs are in optics as polarization filters, Bragg filters, and spectral hole filters. At visible and infrared wavelengths, a single-section STF is a unidirectionally nonhomogeneous continuum with direction-dependent properties. Several sections can be grown consecutively into a multisection STF, which can be conceived of as an optical circuit that can be integrated with electronic circuitry on a chip. Being porous, an STF can act as a sensor of fluids and can be impregnated with liquid crystals for switching applications too. Applications as low-permittivity barrier layers in electronic chips as well as solar cells have also been suggested. Biomedical applications such as tissue scaffolds, drug-delivery platforms, virus traps, and labs-on-a-chip are also in different stages of development.

References

  • {{cite book|author=Akhlesh Lakhtakia & Russell Messier|title=Sculptured Thin Films: Nanoengineered Morphology and Optics|year=2005| publisher=SPIE Press, Bellingham, WA, USA|isbn=0-8194-5606-3}}

References

  1. (1995). "Fabrication of thin films with highly porous microstructures". American Vacuum Society.
  2. (1997). "Engineered sculptured nematic thin films". American Vacuum Society.
  3. (2000). "Spacerless circular-polarization spectral-hole filters using chiral sculptured thin films: theory and experiment". Elsevier BV.
  4. (2004-11-01). "Gradient-index narrow-bandpass filter fabricated with glancing-angle deposition". The Optical Society.
Wikipedia Source

This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page.

nanomaterials
Want to explore this topic further?

Ask Mako anything about Sculptured thin film — get instant answers, deeper analysis, and related topics.

Research with Mako

Free with your Surf account

Content sourced from Wikipedia, available under CC BY-SA 4.0.

This content may have been generated or modified by AI. CloudSurf Software LLC is not responsible for the accuracy, completeness, or reliability of AI-generated content. Always verify important information from primary sources.

Report