At the heart of these systems is the catalyst: a highly specialized material that decomposes hydrazine within milliseconds, withstands extreme temperatures, and continues to function reliably after ...

A new computational approach reveals how subtle structural changes in polyheptazine imides can dramatically influence their ability to convert sunlight into chemical energy. Photocatalysis offers a ...

From brightly colored textile dyes to persistent pesticides and antibiotics, many modern pollutants dissolved in water—such ...

Stainless steel (SS) is successfully used in food industries due to the characteristics of its surface, which is essential for the maintenance of the properties of food. Tanks and stainless steel ...

A Hunan University team published their findings in the journal Energy Fuels (DOI: ), proposing that spin-state engineering of cobalt-based catalysts can optimize ammonia decomposition for hydrogen ...

Every cell of the deadly Plasmodium falciparum parasite, the organism that causes malaria, contains a tiny compartment full of microscopic iron crystals. As long as the parasite is alive, the crystals ...

All the heavy lifting went down in Central South University’s cutting-edge labs, nestled in Changsha—a bustling city of over 10 million folks and a real hotbed for materials science. Backed by ...

KAUST researchers developed an innovative photocatalyst that produces 102 micromoles of hydrogen peroxide per hour under visible light, significantly outperforming previously reported photocatalysts.

A research team led by Dr. Kee Young Koo from the Hydrogen Research Department at the Korea Institute of Energy Research (President: Yi Chang-Keun, hereafter referred to as KIER) has developed a novel ...

An international team of researchers from Seoul National University, the Korea Institute of Science and Technology (KIST), and Kookmin University has developed an advanced electrochemical catalyst ...