Noticias
"Injection, Transport, and Manipulation of Pure Spin Currents in Metallic Lateral Spin Valves", PhD Thesis by Estitxu Villamor Lomas
Estitxu Villamor, Pre-doctoral Researcher at the Nanodevices Group at nanoGUNE, receives her PhD at the University of the Basque Country (UPV/EHU) after the defense of her thesis project on Monday 15 December 2014. Her research work, entitled “Injection, Transport, and Manipulation of Pure Spin Currents in Metallic Lateral Spin Valves”, has been developed under the supervision of the Nanodevices Group researcher and Ikerbasque Research Professor Dr. Felix Casanova Fernandez.
ETP Nanomedicine Annual Event 2014
NanoGUNE hosts more than 120 experts in nanotechnology and medicine at the 2014 Annual Event & General Assembly of the European Technology Platform on Nanomedicine (ETPN). The ETPN event has taken place on 15 and 16 October 2014, co-organized by the nanoBasque Agency (SPRI) and nanoGUNE, the Basque Nanoscience Cooperative Research Center.
Rainer Hillenbrand, Premio Ludwig-Genzel 2014
- Rainer Hillenbrand lidera, desde 2008, el grupo de Nanoóptica de CIC nanoGUNE, centro de investigación de nanociencia del País Vasco
- Ha sido premiado por “el diseño y desarrollo de la espectroscopia infrarroja de campo cercano y la aplicación de este nuevo método espectroscópico en diferentes áreas de las ciencias naturales”
- El Premio Ludwig-Genzel se otorga cada dos años a un científico joven que haya realizado contribuciones excepcionales al campo de la espectroscopia de la materia condensada
Sir John Pendry, Premio Kavli de nanociencia 2014
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Sir John Pendry es miembro de los comités científicos de los centros de investigación DIPC y CIC nanoGUNE en el País Vasco
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Los Premios Kavli están considerados los premios Nobel de la tecnología
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"Polythiophene-based nanoscale lateral devices", PhD thesis by Thales V. A. G. de Oliveira
Thales de Oliveira, Pre-doctoral Researcher at the Self-Assembly Group at nanoGUNE, received his PhD at the University of the Basque Country (UPV/EHU) after the defense of his thesis project on Friday 23 May 2014. His research work, entitled “Polythiophene-based nanoscale lateral devices”, has been developed under the supervision of Dr. Alexander Bittner and Dr. Luis E. Hueso, Ikerbasque Research Professors and Leaders of the Self-Assembly and Nanodevices Groups, respectively.
Plasmones del grafeno, una luz para los dispositivos de nueva generación
- Investigadores de CIC nanoGUNE han desarrollado una plataforma tecnológica basada en antenas que permite lanzar y controlar la luz que se propaga a lo largo del grafeno, abriendo nuevas vías para el desarrollo de dispositivos y circuitos fotónicos extremadamente miniaturizados.
- Demuestran que la luz atrapada en grafeno, un material formado por una sóla capa de átomos de carbono, se puede enfocar y curvar.
- El trabajo fue publicado ayer en la prestigiosa revista científica Science.
"Resistive switching in Hafnium oxide", PhD thesis by Raul Zazpe
Raul Zazpe, Pre-doctoral Researcher at the Nanodevices Group at nanoGUNE, received his PhD at the University of the Basque Country (UPV/EHU) after the defense of his thesis project on Wednesday 30 April 2014. His research work, entitled “Resistive switching in Hafnium oxide”, has been developed under the supervision of the Nanodevices Group Leader and Ikerbasque Research Professor Dr. Luis Hueso.
Tecnología de vanguardia al servicio del mundo académico y de las empresa
CIC nanoGUNE pone en marcha su departamento de Servicios Externos, una propuesta integral que aúna equipamiento de vanguardia y personal cualificado al servicio del mundo académico y de las empresas.
State-of-the-art technology at the service of academia and companies
NanoGUNE has set up its External-Services department, a comprehensive proposal combining cutting-edge equipment and qualified personnel to serve academia and companies.
Two-Dimensional Programmable Manipulation of Magnetic Nanoparticles on-Chip
Researchers from the Nanomagnetism Group at nanoGUNE have developed a novel device for on-chip selective trap and two-dimensional remote manipulation of single and multiple fluid-borne magnetic particles using field controlled magnetic domain walls in circular nanostructures. The combination of differently shaped nanorings and field sequences allows for the remote manipulation of magnetic particles with high precision along any arbitrary pathway on a chip surface.
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Eventos
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i.otegui@nanogune.eu
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