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Summer Internship Program: call open until 5 February


Would you like to do an internship over the summer? We have a great option for you!

Designer magneto-optics with plasmonic magnetic nanostructures, PhD Thesis by Nicolò Maccaferri


Nicolò Maccaferri, Pre-doctoral Researcher at the Nanomagnetism Group at CIC nanoGUNE, received his PhD at the University of the Basque Country (UPV/EHU) after the defense of his thesis project on 9 December 2016. His research work, entitled “Designer magneto-optics with plasmonic magnetic nanostructures", has been developed under the supervision of Dr. Paolo Vavassori, Nanomagnetism group coleader.

Nanoscience for superheroes


The comic book “Dayanne and Murillo. The Power of Nanoscience”, created within the nanoKOMIK project, has been presented by CIC nanoGUNE and DIPC research centres.

Functionalization of nanomaterials by atomic layer deposition, PhD thesis by Fan Yang


Fan Yang, Pre-doctoral Researcher at the Nanomaterials Group at CIC nanoGUNE, received her PhD at the University of the Basque Country (UPV/EHU) after the defense of her thesis project on 10th October 2016. His research work, entitled “Functionalization of nanomaterials by atomic layer deposition", has been developed under the supervision of Dr. Mato Knez, Ikerbasque Research Professor and Group Leader of the Nanomaterials Group.

DIPC, CFM and nanoGUNE researchers are the co-authors of one of the twelve most important papers in the history of the Journal of Physics


Daniel Sánchez-Portal, of the Centre for Materials Physics (CSIC-UPV/EHU), and Emilio Artacho, Cambridge University professor and Ikerbasque researcher at CICnanoGUNE, both members of the Donostia International Physics Center (DIPC), are co-authors of one of the twelve most important papers in the 50-year history of the Journal of Physics series, according to the publication’s editors. The work selected was published in 2002 and presented a new, efficient atomic simulation code known by its acronym SIESTA; its use is very widespread today.

On-chip observation of THz graphene plasmons

THz plasmons of extremely short wavelength propagate along the graphene sheet of a THz detector, as visualized with photocurrent images obtained by scanning probe microscopy.

Researchers developed a technique for imaging THz photocurrents with nanoscale resolution, and applied it to visualize strongly compressed THz waves (plasmons) in a graphene photodetector. The extremely short wavelengths and highly concentrated fields of these plasmons open new venues for the development of miniaturized optoelectronic THz devices (Nature Nanotechnology DOI: 10.1038/NNANO.2016.185)

Graphene does double duty for plasmons


A study by ICFO, CIC nanoGUNE, Columbia University and the National Institute for Materials Science in Japan published in Nature Materials demonstrates how graphene can be employed simultaneously as both a plasmonic medium and detector.

New step towards clean energy production from enzymes


Oxygen inhibits hydrogenases, a group of enzymes that are able to produce and split hydrogen. This degradation is fatal for possible biotechnological applications of these enzymes for the production of clean energy. Understanding the mechanisms of this process is hence essential. An international team led by researchers from UCL (UK), CNRS (France) and nanoGUNE/Ikerbasque, have combined theory and experiment to characterize each chemical reaction step that results in the reduction of oxygen by the enzyme. These results are being published this week in the journal Nature Chemistry.

Coexistence of superconductivity and charge density waves observed

Nature Materials

Scientists at Max Planck Institute for Solid State Research, BESSY II Synchrotron and nanoGUNE have discovered that an artificial structure composed of alternating layers of ferromagnetic and superconducting materials induce Charge Density Waves deeply into the superconducting regions, indicating new ways to manipulate superconductivity. The results have been published in Nature Materials.

Measures to increase business demand for nanotechnology

Nanotransfer Seminar

The Nanotransfer consortium identifies nanoscience as an essential strategy for the productive transformation of the Basque Country. Researchers and experts at Orkestra-Basque Institute of Competitiveness, Tecnalia, CIC Nanogune, NanoBasque-Spri, and the Universities of Deusto and of the Basque Country, have collaborated in a project analysing the development and implantation of nanoscience, micro- and nanotechnology in the Basque Country. This project, known as Nanotransfer, identifies commitment to nanoscience as an essential strategy in the production transformation process in the Basque Country and emphasises the need to speed up the incorporation of nanotechnologies into manufacturing processes and into products marketed.


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