A joint research team has developed a technology to produce high-value-added plastic raw materials called dicarboxylic acids ...
Coordinated by the Chicago-based water innovation hub Current, in partnership with Argonne and the University of Chicago, Great Lakes ReNEW will develop and deploy improved technologies for recovering ...
Repolywise’s Atomic Scissors technology transforms hard-to-recycle plastics, supporting a circular economy." A UK-based start ...
RMIT University in Australia has discovered this new way to turn waste carpet fibers into a key component for crack-resistant ...
AFFF, widely used throughout the firefighting industry, contains per- and polyfluoroalkyl substances (PFAS), a group of persistent and potentially hazardous chemicals that pose ... wastewater ...
USC researchers have developed a new process to upcycle the composite materials appearing in automobile panels and light rail ...
Dr. Annie Meier (second from left) and her team inside the Applied Chemistry Lab at NASA's Kennedy Space Center in Florida began supplementing their ...
Electric cars offer a green solution but come with batteries packed with toxic materials; a new lithium battery recycling ...
DURHAM, NC / ACCESSWIRE / August 15, 2024 / 374Water Inc. (Nasdaq:SCWO), a global leader in organic waste destruction technology for the municipal, federal, and industrial markets, today provides a ...
Sabert's Stephny Halstead shares the factors influencing the company's approach to food service packaging design.
A Korean joint research team has developed a technology to produce high-value-added plastic raw materials called dicarboxylic acids (α,ω-diacids) by recycling mixed waste plastics.