The rise of lithium-ion batteries in electric vehicles and energy storage systems has led to a growing number of retired batteries, posing a significant challenge for sustainable energy development.

Rice researchers have developed a process to use PFAS to extract lithium from high-salinity brine pools, described in a study recently published in Nature Water.

The rise of lithium-ion batteries in electric vehicles and energy storage systems has led to a growing number of retired batteries, posing a significant challenge for sustainable energy development.

As global sustainability expectations begin to fiercely target the mining industry, ICMM explores how much the race for renewables is impact GHG emissions ...

Perfluoroalkyl and polyfluoroalkyl substances (PFAS) are primarily thought of as environmental pollutants, and most research ...

Plastic is one of the most durable materials humans have ever made. That durability has made it indispensable in medicine, ...

Scientists have developed a cleaner way to separate cobalt and nickel from lithium-ion battery ...

Spanish stainless steel producer Acerinox has partnered with German industrial group Jeremias Group to launch the Blueline product line, touted as the ...

Perfluoroalkyl and polyfluoroalkyl substances, or PFAS, are primarily thought of as environmental pollutants, and most research on them focuses on ...

A meteorite chip sat in a small container, bathed in liquid, while the International Space Station floated overhead. Inside, ...

W HAT HAPPENS in the sea matters to everyone on land, because life in the sea underpins habitability on Earth. The ocean acts as a planetary thermostat. It regulates the climate, produces oxygen, ...

Limited refining capacity for metals such as copper, aluminum, nickel, graphite and rare earths is creating a strategic ...