A new iron complex has been developed as a catalyst for the oxidation of methane to selectively convert it to methanol. This complex can efficiently oxidize methane by internally trapping methane ...

Professor Kotohiro Nomura's research group at Tokyo Metropolitan University has developed an efficient method for the exclusive depolymerization of PET (polyethylene terephthalate), PET bottles and ...

Methane (CH₄), the colorless and odorless gas that makes up most natural gas on Earth, has so far been converted into useful fuels and chemicals via energy-intensive processes that need to be carried ...

Fuel cells and metal-air batteries are considered the future of clean energy technology, but they rely on one critical reaction—the oxygen reduction reaction (ORR)—to convert energy efficiently.

A new catalyst design could transform how acetaldehyde is made from renewable bioethanol. Researchers found that a carefully ...

Sustainable nitrogen transformation is central to clean energy development, environmental protection, and future chemical manufacturing. This study ...

There is a dire need for selective catalysts that allow us to consistently achieve a desired outcome in a chemical reaction. It is this consistency that allows for more efficient, energy-saving ways ...