RSS feedhttps://inano.medarbejdere.au.dk/en-gbFri, 29 Mar 2024 15:42:16 +0100Fri, 29 Mar 2024 15:42:16 +0100TYPO3 EXT:newsnews-10084Fri, 15 Mar 2024 12:25:18 +0100iNANO associated researcher is the new dean of the Faculty of Natural Scienceshttps://medarbejdere.au.dk/en/news-articles/news/artikel/birgit-schioett-bliver-ny-dekan-paa-faculty-of-natural-sciencesOn 1 May, iNANO associated Professor Birgit Schiøtt will become dean of the Faculty of Natural Sciences. Schiøtt will head the faculty where she has built a career as an internationally recognised researcher who has helped advance our understanding the chemistry of the brain, and where she also served as head of the Department of Chemistry for eight years.Lise Refstrup Linnebjerg Pedersen17105019181710501918news-10002Wed, 28 Feb 2024 10:42:48 +0100PhD student from iNANO receives Elite Research Travel Granthttps://inano.medarbejdere.au.dk/news-and-events/news/show/artikel/phd-student-from-inano-receives-eliteforsk-travel-scholarshipPaula de Dios Andres from the Interdisciplinary Nanoscience Center (iNANO) has been awarded an Elite Research Travel Grant, which allows her to spend a long-term stay at University Michigan.Lise Refstrup Linnebjerg Pedersen17091133681709113368news-9976Mon, 19 Feb 2024 10:37:25 +0100Energy storage: Hydrogen can be packed extremely tightly in a nanoporous materialhttps://inano.medarbejdere.au.dk/news-and-events/news/show/artikel/energy-storage-hydrogen-can-be-packed-extremely-tightly-in-a-nanoporous-materialResearchers at Aarhus University have discovered a porous material in which hydrogen can be packed twice as densely as in pure liquid hydrogen. This is because hydrogen forms penta-molecular units that have not previously been observed. Hydrogen also forms a new type of bond with the lattice structure, called a hexahydrogen bond. This discovery opens new perspectives for efficient and safe energy storage.Lise Refstrup Linnebjerg Pedersen17083354451708335445