Albisteak
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.
Kautxua optimizatzeko elkarlanean dihardute CIC nanoGUNEk eta CIKAUTXOk
CIC nanoGUNE, Nanozientzietako Ikerketa Zentro Kooperatiboa, eta CIKATEK, CIKAUTXOko I+G+B unitatea, elkarrekin ari dira lanean nanoteknologiaren bidez balio erantsi handiko kautxua lortzeko.
GraphenePioneer enpresak irabazi du Global Graphene Call deialdiaren 1. edizioa
GraphenePioneer enpresak irabazi du Global Graphene Call deialdiaren 1. edizioa. Deialdi horren helburua da grafenoarekin lotutako enpresa-ideiak sustatzea. Grafenoaren laguntzarekin oraindik ezezagunak diren materialak ekoiztea eta horiekin gizartean eragina izatea da GraphenePioneer enpresaren eginkizuna.
CIC nanoGUNEk koordinatutako proiektu batek 4 milioi euro inguru jaso ditu Europako Batzordetik
CIC nanoGUNEk SPEAR proiektua koordinatzen du. Proiektu horren bidez, hurrengo belaunaldirako konputaziorako memorien eta prozesadoreen material berriak aztertu nahi dira, Europako bost erakunde akademikorekin (CEA-Frantzia, ETH Zurich-Suitza, IMEC-Belgika, U. Hanburg-Alemania, Martin Luther University Halle-Alemania) eta hiru enpresarekin (ANTAIOS-Frantzia, QZabre-Suitza, NanOsc-Suedia) elkarlanean.
Research on biocatalytic processing of cellulose featured by Communications Chemistry
The publication entitled ‘Resurrection of efficient Precambrian endoglucanases for lignocellulosic biomass hydrolysis’ has been featured in a themed collection put together by Communications Chemistry that showcases a selection of the Structural Biology, Biocatalysis, and Bioconjugation Research published in the journal.
Grafenoaren magnetismoa argitzen
Donostia International Physics Center (DIPC), CIC nanoGUNE eta Santiago de Compostela Unibertsitateko (USC) CiQUS zentroko ikertzaileek grafenozko pieza triangeluar txiki baten magnetismoa argitzen dihardute. Hala, gero eta hobeto ezagutuz doaz erabilera anitzeko material aldakor hori bai eta eguneroko bizitzako hainbat arlotan izan ditzakeen aplikazioak. Lehenengo aldiz lortu dute esperimentalki behatzea tunel-efektuko mikroskopio batekin (gainazalen irudiak maila atomikoan hartzeko aukera ematen du) grafenozko egitura triangeluar txiki baten berezko magnetismoa.
Nola manipulatu argia nanoeskalan frekuentzia-tarte zabaletan
Oviedoko Unibertsitateko eta Nanomaterial eta Nanoteknologiako Ikerketa Zentroko (CINN-CSIC) ikertzaileek gidatutako nazioarteko talde batek metodo eraginkor bat aurkitu du nanoeskalan konfinatutako argiaren maiztasuna kontrolatzeko. Emaitzak duela gutxi argitaratu ziren Nature Materialsen. Kolaboratzaileen artean CIC nanoGUNE, Donostia Internatioanl Physics Center (DIPC) eta Materialen Fisika Zentroko (CFM, CSIC-UPV/EHU) euskal ikerketa-zentroetako zientzialariak daude besteak beste, Txinako Zientzien Akademia, Case Western Reserve (EE.UU.) unibertsitatea, Austriako Teknologia Institutoa, Pariseko Material Zentroa, eta Tokioko Unibertsitatearekin batera.
CIC nanoGUNE works on infrared sensing and photodetectors within GrapheneCore3
The Nanooptics Group of CIC nanoGUNE is involved in the Work Package 8: Photonics and Optoelectronics in the Graphene Flagship Core 3 project, the fourth funding cycle of the €1 Billion research initiative funded by the European Commission. The mission of Work Package Photonics and Optoelectronics is to develop GRM-based components for photonic and optoelectronic applications and to integrate them into photonic circuits, imaging arrays and optical sensors. NanoGUNE works on infrared sensing and is involved in infrared and terahertz detectors.
Technology offering the optimisation of polymer´s properties is now protected as part of nanoGUNE´s IP portfolio
The nanomaterials group in nanoGUNE, led by Mato Knez, has developed a new technology called SCIP that allows an improvement of the mechanical properties of polymers. The technology can be directly applied to functionalize textile, opening new perspectives in product development in the sports/fashion or personal protection sector.
Low-power spin detection in non-magnetic systems
A team of researchers from Université Grenoble Alpes - CNRS - Spintec, Unité Mixte de Physique CNRS-Thales, and Université d'Evry, and also including Dr. Diogo. C Vaz, currently at CIC nanoGUNE, reports on an alternative strategy to achieve low-power spin detection in a non-magnetic system. The results have now been published in Nature.
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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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