The 2025 Nobel Prize in Chemistry was awarded to Susumu Kitagawa of Japan, Richard Robson of the UK, and Omar M. Yaghi of Jordan "for the development of metal–organic frameworks."
BREAKING NEWS
— The Nobel Prize (@NobelPrize) October 8, 2025
The Royal Swedish Academy of Sciences has decided to award the 2025 #NobelPrize in Chemistry to Susumu Kitagawa, Richard Robson and Omar M. Yaghi “for the development of metal–organic frameworks.” pic.twitter.com/IRrV57ObD6
Susumu Kitagawa, Richard Robson, and Omar M. Yaghi have created molecular constructions with large spaces through which gases and other chemicals can flow. These constructions, metal–organic frameworks (MOFs), can be used to harvest water from desert air, capture carbon dioxide, store toxic gases, or catalyse chemical reactions. Breaking the news, The Nobel Prize wrote on X, "The Royal Swedish Academy of Sciences has decided to award the 2025 #NobelPrize in Chemistry to Susumu Kitagawa, Richard Robson and Omar M. Yaghi 'for the development of metal–organic frameworks.'"
Nobel Prize for Chemistry 2025: Meet the winners
A Professor at Kyoto University, Kitagawa was born in Kyoto in 1951. He completed his PhD in 1979 from Kyoto University. Omar M. Yaghi, born in Amman, Jordan in 1965, earned his PhD from the University of Illinois Urbana-Champaign, USA in 1990 and is currently a Professor at the University of California, Berkeley.
Understanding their work
The trio developed a new form of molecular architecture. In their constructions, metal ions function as cornerstones that are linked by long organic (carbon-based) molecules. Together, the metal ions and molecules are organised to form crystals that contain large cavities. These porous materials are called metal–organic frameworks (MOFs). By varying the building blocks used in the MOFs, chemists can design them to capture and store specific substances. MOFs can also drive chemical reactions or conduct electricity.
“Metal–organic frameworks have enormous potential, bringing previously unforeseen opportunities for custom-made materials with new functions,” says Heiner Linke, Chair of the Nobel Committee for Chemistry.
It all started in 1989, when Richard Robson tested utilising the inherent properties of atoms in a new way. He combined positively charged copper ions with a four-armed molecule; this had a chemical group that was attracted to copper ions at the end of each arm. When they were combined, they bonded to form a well-ordered, spacious crystal. It was like a diamond filled with innumerable cavities.
Robson immediately recognised the potential of his molecular construction, but it was unstable and collapsed easily. However, Susumu Kitagawa and Omar Yaghi provided this building method with a firm foundation; between 1992 and 2003 they made, separately, a series of revolutionary discoveries. Kitagawa showed that gases can flow in and out of the constructions and predicted that MOFs could be made flexible. Yaghi created a very stable MOF and showed that it can be modified using rational design, giving it new and desirable properties.
Following the laureates’ groundbreaking discoveries, chemists have built tens of thousands of different MOFs. Some of these may contribute to solving some of humankind’s greatest challenges, with applications that include separating PFAS from water, breaking down traces of pharmaceuticals in the environment, capturing carbon dioxide, or harvesting water.
