NASA and ACS research explore how recycling human and plant waste could create nutrient-rich soils for lunar and Martian greenhouses, supporting Artemis and future missions.

Can transforming food waste into functional ingredients truly improve health outcomes while reducing environmental impact?

A physicist proposes that consciousness is the fundamental basis of reality, with matter and spacetime emerging from it.

A multimillion-dollar government project is betting that particle accelerators can "burn" through the world's most dangerous ...

A new solar-driven method transforms plastic waste and microplastics into acetic acid, turning pollution into a valuable chemical.

Every year, over 100 billion nitrile rubber gloves are produced. They are made from synthetic polymers—a material chemically related to plastic and derived from crude oil. The vast majority is used in ...

Abstract: The proliferation of surface waste in water bodies poses significant environmental and ecological challenges. Traditional methods of waste detection are often labor-intensive and limited in ...

Tiny particles bounce light around in a unique way, a property that researchers are using to detect pollutants in water and soil samples.

Inida is rich in catalysis discovery, but poor in translating its knowledge into technologies. Here's how that can change.

Tiny pits, webbing patterns, and a dusting of nanoparticles are not what most people picture when they think about farming.

Everyday items like clothing, plastics and packaging can last centuries. Here’s how long they tend to breakdown and why ...

Researchers at UNSW have discovered a new way to make graphene, a remarkable "wonder material," using just discarded peanut ...