Process for the Fabrication of Nanostrucured Arrays on Flexible Polymer Films
- 技術優勢
- Faster and less expensive that the nanofabrication process based on focused ion beam (FIB) etching Faster and more robust than current lithographic techniques Resultant nanostructured polymer films can be used for coating any given object regardless of shape
- 技術應用
- The nanostructured thin films can be incorporated into biosensors, anti-reflective coatings at visible and near infrared wavelength, self-cleaning surfaces, solar cells, LED displays.
- 詳細技術說明
- This invention is a fabrication process for arrays of nanostructures (e.g., nanocones) on flexible polymer films. This fabrication process allows for the nanocone arrays to be created on a large scale (e.g., 10-100 sq. inches) on a flexible polymer film via a two-step process. The first step consists of self-assembling a layer of polymer microspheres or nanospheres on a different polymer film. The second step consists of the simultaneous differential etching of the polymer spheres and film to create the nanostructured surface. The resultant nanocone arrays can then be coated by an ultrathin metal, polymer, oxide, or semiconductor film or nanoparticles. The resulting nanostructured surfaces have unique optical and wetting properties, and the thin films are flexible enough to coat curved or convoluted surfaces. Arrays of nanostructures organized on surfaces are highly interesting because they can exhibit unique surface properties such as structural iridescence, anti-reflectivity, superhydrophobicity, enhanced catalytic activity and coupled plasmonic optical resonances.These nanostructured surfaces can be potentially implemented as essential components in a variety of important application devices including biosensors, anti-reflective coatings, solar panels, self-cleaning surfaces, and bactericidal surfaces. There is an unmet need for an inexpensive, simple, rapid, and scalable technology to functionalize large surface areas with nanostructures in the areas of medical diagnostics, energy industries and military industries -- even potentially for everyday objects (e.g., car, clothes). Methods that utilize “top-down” fabrication such as focused ion beam etching and e-beam lithography can be used to create metallic, semiconductor and oxide nanostructures with precise control, but are costly, relatively slow and limited in total obtainable structured area. Additionally, objects with curved surfaces or complex shapes cannot be used. The UCI researchers have developed a new two-step fabrication process for creating nanostructure arrays on thin polymer films that is easy to implement, inexpensive, versatile, and fast.
- *Abstract
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The technology is a process for making arrays of nanostructures on polymer films.It features a two step process for creating thin polymer films with unique optical and wetting properties that can be used for coating both planar and curved surfaces.It is possible to implement this process in a mass fabrication process over large areas.
- *IP Issue Date
- May 7, 2015
- *Principal Investigation
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Name: Robert Corn
Department:
Name: Gabriel Loget
Department:
Name: Mana Toma
Department:
- 申請號碼
- 20150126393
- 其他
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State Of Development
To date, a prototype of the invention has been developed successfully for the fabrication of nanocone arrays, and the optical and wetting properties of these surfaces have been characterized. Precise control over the diameter and surface density of the nanocones can be achieved and has been demonstrated. Preliminary experiments show that it is also possible to similarly fabricate other structure types, such as nanocups and nanopyramids.
Lead Inventor
Robert M. Corn
http://www.faculty.uci.edu/profile.cfm?faculty_id=5123
Professor, Department of Chemistry
School of Physical Sciences
University of California, Irvine
http://corninfo.ps.uci.edu/Related Materials
Tech ID/UC Case
25037/2014-264-0
Related Cases
2014-264-0
- 國家/地區
- 美國
