Colloquium Nobel Prizes 2025 by Ramón Aguado and Felipe Gándara скачать в хорошем качестве

Colloquium Nobel Prizes 2025 by Ramón Aguado and Felipe Gándara

The Madrid Institute of Material Sciences celebrated a colloquium regarding the Nobel Prizes 2025 un Physics and Chemistry. This event consisted of two talks: 1. Pendulums and Quantum Eggs on a Chip: The Rise of Superconducting Qubits, by Ramón Aguado (ICMM) regarding the Nobel Prize 2025 in Physics: John Clarke, Michel H. Devoret and John M. Martinis. Abstract: How do you make quantum phenomena visible in a circuit you can hold in your hand? In the mid-1980s, John Martinis, Michel Devoret, and John Clarke answered this relevant question by revealing tunneling and energy quantization in superconducting circuits—systems large enough to see. The 2025 Nobel Prize in Physics honors these pioneering experiments that brought quantum mechanics to the macroscopic world and paved the way for the superconducting qubits driving today’s quantum revolution. 2. The 2025 Nobel Prize in Chemistry: Metal–Organic Frameworks, Networks that Build New Rooms for Chemistry, by Felipe Gándara (ICMM) regarding the Nobel Prize 2025 in Chemistry: Susumu Kitagawa, Richard Robson and Omar M. Yaghi. Abstract: In this talk I will follow the scientific path that led to the 2025 Nobel Prize in Chemistry, from the first coordination networks deliberately designed by Robson to realize specific topologies, to the demonstration of permanent porosity by Kitagawa and Yaghi, and the emergence of reticular chemistry as a new field. Rooted in curiosity driven, fundamental research in coordination chemistry and crystallography, treating metal clusters and organic linkers as building units for networks with targeted topologies has changed the way we think about coordination compounds, turning them into modular platforms for designing After these talks, the event finished with a Round table and questions.