Biodegradable plastics represent a small but growing fraction of global plastic production, offering a potential solution to ...

Epson and The Hong Kong Research Institute of Textiles and Apparel (HKRITA) have succeeded in developing new regenerated cellulose fiber with a silk-like sheen from waste cotton fabric through a new ...

Improved bacterial cellulose could help create tougher, greener materials for things we use every day. As plastic waste ...

Nano-biocomposites are merging nature and nanotech to create greener, smarter materials with growing uses in medicine, ...

Since the advent of filter cigarettes, cigarette butts have become a predominant form of waste, with projections indicating ...

The team determined that every cigarette filter-infused asphalt variant was more resilient than conventional asphalts. On top ...

A research team led by Prof. Li Dejun from the Institute of Subtropical Agriculture of the Chinese Academy of Sciences has ...

Functional Fabric Fair and Future Fibers Expo (FFE) are leading by example. The respective trade shows strategically ...

The Department of Ecology found that non-operational storage tanks, treatment systems and environmental equipment at the site ...

Researchers from the Building Engineering Laboratory (LabIC.UGR) are collaborating with the University of Bologna (Italy) on the design and evaluation of the resistance of asphalt made from pellets of ...

A unique partnership delivers reliable steam, power, and resilience to Amelia Island’s century-old cellulose plant.

Transforming landfill waste into carbon dots and nanomaterials highlights the potential of nanotechnology in promoting sustainability and resource efficiency.