Themed collection Sustainable fashion

This article demonstrates proof-of-concept for upcycling textile derived microfibers to structured solid carbon products of value using a representative well defined feedstock of real textile derived fibers of polyester and cotton.

Harnessing microbial biofabrication coupled to a protocol inspired by indigenous textile processes, we engineer high-performance biotextiles with a sustainable circular life cycle, including the plant and mineral dyed bioleather sneakers shown.

Wool fabric was coloured using sulphonated lignin as a natural dye and a range of sustainable mordanting agents that considerably improved colourfastness to washing and introduced new functional properties.

This research aims to evaluate waste cotton and polyester as effective potential adsorbents for the removal of crystal violet (CV) from aqueous phases.

We propose an affordable and safe route to recover palladium in its metallic form from waste fashion items and recycle it in electronic devices.

The Ioncell process is capable of producing high-quality regenerated cellulose fibers from dissolving pulps with a wide range of intrinsic viscosity and different molecular mass distributions.

Aerogels and cryogels were obtained from cellulose-based textile waste.

A new recyclability path for unusable textiles are processed into electronic textiles. These materials can be implemented into such applications as energy harvesting or sensing devices that can be worn as demonstrated by our smart mask.

To reduce the energy and water consumption from a conventional textile industry, a facile and efficient UVA-assisted scouring/bleaching strategy has been customized for cotton/spandex in this research.

Human neuroglobin (Ngb) was rationally engineered into an enzyme by triple mutations, A15C/H64D/F49Y Ngb, which efficiently catalyzes the synthesis of indigo and derivatives with different colors for textile dyeing.

Partly bio-based thermoplastic poly(cycloacetal-urethane)s synthesized and melt-spun into textile fibres that can be potentially chemically recycled.

Biodegradation of shed fibres originated from textile washing.

Textile recycling can be integrated in pulp mills through the use of green liquor in the pretreatment of the textiles.