Albisteak
Erradiazio espazialaren efektuak aztertzeko simulazio konputazionalak
Gazte Ekintzailetzarako Beka jaso du Maider Rekondo Salsamendik
NanoGUNE has joined the Technological Vouchers program from Fomento SS
CIC nanoGUNEk eta Astilleros Balenciagak ontzigintzako altzairua ikertzen dihardute
CIC nanoGUNE eta Astilleros Balenciaga elkarlanean aritu dira tamaina ertaineko ontziak egiteko erabiltzen den ontzigintzako altzairuaren konformazio termikoak materialaren mikroegiturari ez diola kalterik egiten egiaztatzeko.
The Electronic Structure Library (ESL): a modular software development paradigm
First steps to work on the issue of gender equality
Equality is a cross-cutting issue that must be worked out from many different fields and should be addressed from different perspectives. NanoGUNE has made the first steps to work consciously and systematically on the issue of gender equality, developing a diagnosis of the situation in a report and also is working on the development of the first Gender-Equality Plan.
Haurren erditze seguruagoa lortzeko teknologia disruptibo berri bat garatu du CIC nanoGUNEK
Erditzean haurren arrisku fisiologikoak uneoro denbora errealean kontrolatzeko aukera ematen duen teknologia berri ez-inbaditzaile bat garatu du nanoGUNEko Nanoingeniaritza Taldeak. Teknologia horrek erabaki azkarrak hartzen laguntzen die obstetrei, eta, horrenbestez, mundu osoan egiten diren zesarea kopurua gutxitzen.
Publication of the 2020 Magnetism Roadmap
Under the Guest Editorship of nanoGUNE’s Research Director Dr. Andreas Berger, the Journal of Physics D – Applied Physics just published the 2020 Magnetism Roadmap.
"Emakumeak Zientzian" ekimenari STEAM Euskadi zigilua aitortu zaio
"Emakumeak Zientzian" ekimenak STEAM Euskadi zigilua jaso du Euskadin STEAM hezkuntza sustatzeagatik.
nanoGUNE reaches new depths in infrared nanospectroscopy
Researchers from the Nanooptics Group at CIC nanoGUNE demonstrate that nanoscale infrared imaging – which is established as a surface-sensitive technique – can be employed for chemical nanoidentification of materials that are located up to 100 nm below the surface. The results further show that the infrared signatures of thin surface layers differ from that of subsurface layers of the same material, which can be exploited to distinguish the two cases. The findings, recently published in Nature Communications, push the technique one important step further to quantitative chemometrics at the nanoscale in three dimensions.
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Ekitaldiak
No events
nanoTEKA
Aurkitu argazkiak, irudi esperimentalak, bideoak, audioak eta nanoGUNErenirudi korporatiboa.
Harremana
Itziar Otegui
Komunikazio arduraduna
+34 943574024
i.otegui@nanogune.eu
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