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nanoGUNE joins forces with BerriUp and Graphenea to launch the Global Graphene Call


The Global Graphene Call aims to drive forward business projects linked to graphene. The deadline for submitting projects is 26 April, 2020.

Electronic tailoring of graphene nanostructures via on-surface synthesis


Eduard Carbonell, Pre-doctoral Researcher at the nanoimaging Group at CIC nanoGUNE, received his PhD at the University of the Basque Country (UPV/EHU) after the defense of his thesis project on 28 July 2017. His research work, entitled “Electronic tailoring of graphene nanostructures via on-surface synthesis", has been developed under the supervision of Dr. José Ignacio Pascual, nanoimaging group leader.

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.

The Nanodevices group participates in the 2D-INK Fet Open project


The 2D-INK project, led by the Molecular and Supramolecular Materials group of POLYMAT-UPV/EHU, has been funded by the European Union with 2,962,661 €. The projects aims at developing inks of novel 2D semiconducting materials -needed for the functioning of electronic devices- for low-cost large-area fabrication processes on insulating substrates through a new methodology, which will exceed the properties of state-of-the-art graphene- and graphene oxide based inks. From these semiconductor inks it would be possible to produce the next generation of ultrathin electronic appliances (such as transistors, LEDs, and solar cells) using the same technology of the current inkjet printers.

Charge and spin transport in graphene devices, PhD Thesis by Luca Pietrobon


Luca Pietrobon, Pre-doctoral Researcher at the Nanodevices Group at nanoGUNE, receives his PhD at the University of the Basque Country (UPV/EHU) after the defense of his thesis project on Friday 5 June 2015. His research work, entitled “Charge and spin transport in graphene devices", has been developed under the supervision of the Nanodevices Group Leader and Ikerbasque Research Professor Dr. Luis E. Hueso.

Graphenea embarks on a new era

graphenea, nanogune

CIC nanoGUNE, founder of Graphenea together with a group of private investors, will no longer be a partner of the company from its fifth anniversary, as stipulated in the foundational agreement with Nanotechnology Investment Group SL. Graphenea has become an international benchmark in the sector of graphene, a key material in the development of nanotechnology