Hot and Room Temperature Nanoimprinting of Silk Fibroin Thin Films for Biological Applications

Hot and Room Temperature Nanoimprinting of Silk Fibroin Thin Films for Biological Applications

 

The present invention provides for photonic nanoimprinted silk fibroin-based materials and methods for making same, comprising embossing silk fibroin-based films with photonic nanometer scale patterns. In addition, the invention provides for processes by which the silk fibroin-based films can be nanoimprinted at room temperature, by locally decreasing the glass transition temperature of the silk film. Such nanoimprinting process increases high throughput and improves potential for incorporation of silk-based photonics into biomedical and other optical devices.

 

Australian Patent 2010242010 issued 10/1/2015

Canadian Patent 2,789,009 issued 3/21/2017

European Patent 2396276 issued 8/31/2016 (10770086.6)

Japanese Patent 5717653 issued 3/27/2015

US Patent 8,747,886 issued 6/10/2014

US Patent 9,603,810 issued 3/28/2017 (14/265,781)

 

Licensing Contact

Martin Son
martin.son@tufts.edu