Dissolvable Coating for Blended Fibers Textile Recycling
NU 2025-066
Figure 1: Core-spun sheath fibers wrapped around elastane core. The biopolymer (here, chitosan) is dip-coated between these two fabric layers during manufacturing.
INVENTORS
Cecile Chazot*
Eleanor Grosvenor
Malachi Cohen
Gabrielle Wood
SHORT DESCRIPTION
This technology describes a method for mixed textile manufacturing, particularly elastane-based materials, with a biopolymer component that can be selectively dissolved for textile recycling.
BACKGROUND
Textile waste is the second largest pollution generating industry in the world.1 Current textile recycling methods require many energy intensive steps, and are based on the identity of the textile fabric being recycled. Recyling of elastane-containing fabrics is challenging due to the fabrication method of core-spinning and its incompatibility with other recycling methods (mechanical recycling, depolymerization, etc.). Most elastane fabrics are not recycled due to these challenges.
ABSTRACT
Northwestern researchers have developed a novel mixed-textile manufacturing method which integrates a selected biopolymer in the core-spun textile process, enabling facile end-of-life recycling. This method uses mild conditions, can be easily scalable shown with a pilot roll-to-roll process, and yields effective separation of blended fibers. The technology is versatile, only needing to know the biopolymer coating and compatible dissolving solvent, and thus can be incorporated with a variety of textile materials.
APPLICATIONS
ADVANTAGES
PUBLICATIONS
In progress
IP STATUS
A provisional patent application was filed on April 10, 2025.
INVO CONTACT
Anne-Isabelle Henry Baruch, PhD
Senior Invention Manager
(p) (847) 491-4629
(e) a-henry@northwestern.edu
1. Global textile recycling market. BCC Research. March 2024.