>>/162668/,  >>/162669/,  >>/162670/,  >>/162671/,  >>/162672/,  >>/162673/,  >>/162674/,  >>/162675/,  >>/162676/,  >>/162677/,  >>/162678/,  >>/162679/,  >>/162680/,  >>/162681/,  >>/162682/,  >>/162683/,  >>/162684/,  >>/162685/,  >>/162686/,  >>/162688/,  >>/162689/,  >>/162690/,  >>/162691/,  >>/162692/,  >>/162693/,  >>/162694/,  >>/162695/,  >>/162696/,  >>/162698/,  >>/162699/,  >>/162700/,  >>/162701/,  >>/162702/,  >>/162703/,  >>/162704/,  >>/162705/,  >>/162706/,  >>/162707/
The Nobel Prize @NobelPrize - BREAKING NEWS
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.”
https://x.com/NobelPrize/status/1975860703857680729

The Nobel Prize @NobelPrize - POLL Have you heard that metal-organic frameworks can be used to harvest water from desert air?"
https://x.com/NobelPrize/status/1975868826592944227

The Nobel Prize @NobelPrize - Learn more about the 2025 #NobelPrize in Chemistry Press release: 
https://www.nobelprize.org/prizes/chemistry/2025/press-release/
Popular information: 
https://www.nobelprize.org/prizes/chemistry/2025/popular-information/
Advanced information: 
https://www.nobelprize.org/prizes/chemistry/2025/advanced-information/
https://x.com/NobelPrize/status/1975861568572448807

The Nobel Prize @NobelPrize - Video: Today the world discovered who had been awarded the 2025 Nobel Prize in Physics. 
Did you miss it? Catch up now.
https://x.com/NobelPrize/status/1975641182874014122

The Nobel Prize @NobelPrize - John M. Martinis – awarded this year’s Nobel Prize in Physics – was born in 1958. 
He received his PhD in 1987 from the @UCBerkeley, Berkeley, USA. He is now a professor at the @ucsantabarbara, Santa Barbara, USA.
https://www.physics.ucsb.edu/people/john-martinis
https://x.com/NobelPrize/status/1975632998318932423

The Nobel Prize @NobelPrize - Today the Nobel Prize in Physics was announced for the 119th time.
This year's physics prize is shared jointly by John Clarke, Michel Devoret and John Martinis. 
Discover more statistics on the physics prize:
https://www.nobelprize.org/prizes/physics/
https://x.com/NobelPrize/status/1975602051104035120

The Nobel Prize @NobelPrize - Have you heard of Cooper pairs?
In an ordinary conductive material, current flows because there are electrons that are free to move through the entire material. In some materials, the individual electrons that push their way through the conductor may become organised, forming a synchronised dance that flows without any resistance. The material has become a superconductor and the electrons are joined together as pairs. These are called Cooper pairs.
Cooper pairs behave completely differently to ordinary electrons. Electrons have a great deal of integrity and like to stay at a distance from each other – two electrons cannot be in the same place if they have the same properties. We can see this in an atom, for example, where the electrons divide themselves into different energy levels, called shells. However, when the electrons in a superconductor join up as pairs, they lose a bit of their individuality; while two separate electrons are always distinct, two Cooper pairs can be exactly the same. This means the Cooper pairs in a superconductor can be described as a single unit, one quantum mechanical system. In the language of quantum mechanics, they are then described as a single wave function. This wave function describes the probability of observing the system in a given state and with given properties. 
The properties of this wave function play a leading role in the 2025 physics laureates’ experiments.
The 2025 Nobel Prize in Physics has been awarded to John Clarke, Michel H. Devoret and John M. Martinis “for the discovery of macroscopic quantum mechanical tunnelling and energy quantisation in an electric circuit.”
https://x.com/NobelPrize/status/1975565061654560862
 39