Innovative dialysis method shows promise in treating high-salinity wastewater, addressing key challenges and promoting a circular economy in resource recovery.
This study presents a nanofiltration method that efficiently recovers aluminum from cryolite waste, promoting sustainability in aluminum production processes.
A novel technique from Cornell University recovers gold from electronic waste, transforming CO2 into valuable chemicals with environmental benefits.
Researchers at the Department of Energy's Pacific Northwest National Laboratory have found that metal scrap can be upgraded and converted directly into high-performance, high-value alloys without traditional melting processes.
Researchers at NYU Abu Dhabi (NYUAD) have created a novel cationic covalent organic framework (COF) that effectively identifies and eliminates perfluorooctanoic acid (PFOA), a dangerous and persistent contaminant, from drinking water. The study was published in Nature Communications.
Chemical engineers at the Massachusetts Institute of Technology (MIT) have developed a catalyst that can convert methane into useful polymers, offering a potential approach to reducing greenhouse gas emissions. This research was published in Nature Catalysis.
The VTT Technical Research Centre of Finland, in collaboration with Aalto University and Finnish industrial partners, has developed a continuous process for bending cardboard to create reel-to-reel origami-inspired structures for fiber-based packaging.
A new copper-based MOF from Oregon State University shows over double the carbon dioxide adsorption capacity, advancing technologies for industrial CO2 capture.
Researchers from Tokyo University of Science and Saitama University achieved the transverse thermoelectric effect (TTE) in the semimetal tungsten disilicide (WSi2).
Researchers from Università di Pavia in Italy and Sophia University in Japan have created a novel microwave-induced pyrolysis technique that offers an economical and effective means of recycling electrical wiring cables.
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