Metal-organic frameworks (MOFs) are porous structures composed of metal ions (or clusters) and organic linker molecules—much ...

Metal–organic frameworks (MOFs) are a remarkably versatile family of crystalline porous materials constructed from metal ions or clusters interconnected by organic linkers. Their highly tuneable ...

STOCKHOLM — Three scientists won the Nobel Prize in chemistry on Wednesday for their development of metal–organic frameworks that could eventually help reduce pollution and combat climate change. A ...

The Nobel Prize in Chemistry 2025 has been awarded for the development of metal-organic frameworks (MOF) to Susumu Kitagawa, PhD, professor at Kyoto University, Japan, Richard Robson, PhD, professor ...

Researchers use rapid thermal processing to convert ZIF-67 into MOF-derived carbon nanotube catalysts with nickel-cobalt ...

In 2025, the Nobel Prize in Chemistry honored Susumu Kitagawa, Richard Robson, and Omar M. Yaghi for pioneering a new way to build materials from metal nodes and organic linkers. 1 These crystalline ...

When the 2025 Nobel Prize in Chemistry honored Omar Yaghi—the "father of metal-organic frameworks," or MOFs—along with Susumu Kitagawa and Richard Robson, it celebrated more than the creation of a new ...

Metal-organic networks have gained much attention due to their high surface areas and tunable structures, which underpin ...

In the race against climate change, capturing carbon dioxide (CO 2) directly from the air is a promising strategy to reduce greenhouse gas emissions. Now, researchers from Shihezi University has ...

A recent study published in Materials Features explores how metal-organic frameworks (MOFs) can serve as both templates and precursors in the synthesis of cathode materials for lithium-ion batteries.

The Nobel Prize in Chemistry was awarded Oct. 8 to Susumu Kitagawa of Kyoto University, Richard Robson of University of Melbourne and former University of Michigan professor Omar Yaghi for the ...