Related news by tag research

CIC nanoGUNE organizes Nano-Story Contest for the first time

This contest is geared towards students who are currently attending schools in the Basque Autonomous Community: young people residing in the Basque Autonomous Community, and young Basque speakers from anywhere in the world, all of whom were between 14 and 17 years of age on 31/12/2021. So the participants will be in one of the following education levels: the 3rd and 4th year of Compulsory Secondary Education (ESO), 11th or 12th grades (Sixth Form), Basic Vocational Training and Intermediate Voc

A nanofabrication instrument installed at nanoGUNE enhances the Basque electron microscopy infrastructure

The CRYO Plasma FIB is a unique advanced nanofabrication and electron microscopy instrument, one of the few in Europe; it will be supporting research centers and industry in the Basque Country and around the world in fields such as materials science relating to low temperature physics, lithium-ion batteries for the energy sector, and cryogenic electron cell tomography.

CIC nanoGUNE expands its patent portfolio

The diversity of application fields demonstrates the great versatility of nanoscience research, and the increase in licensed methods and technologies demonstrates its ability to improve and add value to industrial processes and products. "Our goal is to continue doing research of excellence and transferring those specific developments with the potential to improve the competitiveness of companies to the economic sector," explained Ainara Garcia-Gallastegui, head of Technology Transfer at nanoGUNE.

Electrical control of magnetism by electric field and current-induced torques

Albert Fert, French physicist and winner of the Nobel Prize in Physics in 2007, is one of the discoverers of giant magnetoresistance, a physical effect that revolutionised hard disk technology, allowing a huge increase in its capacity. His research enabled the capacity and applications of the hard disk drive to be increased, and he is now working towards a new generation of microprocessors t

Understanding nanolight refraction on highly anisotropic materials

Light refraction accounts for the change of direction and speed that a wave undergoes when passing from one medium to another. Glasses and contact lenses, microscopes and telescopes, or something as commonplace as the fact that a pencil inserted into a glass of water appears bent when viewed from the outside, have their origin in the optical phenomenon of refraction.

CIC nanoGUNE and BIC Gipuzkoa strengthen ties to increase the social and economic impact of nanotechnology

The main aim of the work by BIC Gipuzkoa is to seek out and set up science and technology-based projects and enterprises in Gipuzkoa. So, “it is essential to nudge or drive forward technologies that are being developed at centers such as nanoGUNE to give them the final impetus they need to achieve this goal”, as Marisa Arriola, managing director of BIC Gipuzkoa pointed out.

CIC nanoGUNE launches new spin-off with technology for safer childbirth

This disruptive technology arose out of a need identified in daily clinical practice by medical professionals in Osakidetza (the Basque Health System) and who are linked to its Health Research Institute, IIS Biogipuzkoa; it led to collaboration with nanoGUNE and seeks to achieve a solution to improve the monitoring of babies' vital signs –including perinatal asphyxia or lack of oxygen– during childbirth.  

Review: Nanoscale terahertz scanning probe microscopy

Terahertz radiation has become an important diagnostic tool in the development of new technologies. However, the diffraction limit prevents terahertz radiation (λ ≈ 0.01–3 mm) from being focused to the nanometer length scale of modern devices. In response to this challenge, terahertz scanning probe microscopy techniques based on coupling terahertz radiation to subwavelength probes such as sharp tips have been developed.

Women at the forefront of science and technology

The 24 signatory entities of the agreement for the joint organization of the 7th edition of Emakumeak Zientzian are an important representative sample of the fabric of science and technology in the Basque Country: the Center for Materials Physics (CFM CSIC-UPV/EHU), Achucarro Basque Center for Neuroscience, CIC biomaGUNE, CIC nanoGUNE, University of Deusto, POLYMAT, Basque Center for Climate Change (BC3), Basque Center for Applied Mathematics (BCAM), Basque Center on Cognition, Brain and Language (BCBL), Biodonostia, Ceit, Cidetec, Donostia International Physics Center (DIPC), Elhuyar,

Connection between the Nobel Prize in Physics and San Sebastian

This year's two Nobel Laureates in Physics relied on tools from physics itself to develop methods that form the basis of automatic machine learning. These methods are widely used by the scientific community and have made significant advances in a very broad range of fields possible. The breadth of the fields in which it has been possible to apply these methods is particularly noteworthy.  What is more, they have enabled studies and simulations that would have been unthinkable just three or four years ago to be conducted.

Researchers develop an innovative strategy to focus infrared light into the nanoscale

Focusing of light into the nanoscale represents a landmark for the implementation of nanotechnology in optics and biochemistry. Based on the exotic propagation of light in highly anisotropic materials (where light propagates in the form of rays along specific directions), a research team led by the University of Oviedo has demonstrated the focusing of infrared light into extraordinarily small regions.

Winter School, getting to know and experiencing everyday life at CIC nanoGUNE

The Winter School 2023 is geared primarily towards undergraduate students of physics, chemistry, biology and engineering who are considering the possibility of continuing their education by doing a PhD thesis. The winter school comprises a combination of academic lectures, cross-skills training sessions and laboratory practice in the center's various laboratories.

Emakumeak Zientzian goes on adding to itself

The collaboration agreement for the project, which is expanding year on year, was signed this morning. The 17 organizations signing up to the agreement on the 6th edition of Emakumeak Zientzian are a significant representative sample of the Basque Country’s science and technology network. This coming together is the result of an open-door initiative always aspiring to unite and convinced that we are better off by adding.

Fèlix Casanova receives the Intel Outstanding Researcher Award for the second time

Finding a replacement for today’s electronic technology to make it smaller, faster and, most importantly, more energy-efficient, i.e. so that it consumes less, is a global challenge. In recent years, Fèlix Casanova and his nanoGUNE team have been working in collaboration with the multinational Intel on a research project aimed at improving the performance and energy savings of future computers by optimizing MESO technology.

New group to address gynecology and infertility healthcare challenges

Mariana Medina-Sánchez is a leading Colombian mechatronics engineer. After obtaining her PhD at the Catalan Institute of Nanoscience and Nanotechnology (ICN2) in Barcelona, she joined the Leibniz Institute Dresden (IFW Leibniz) in Germany and focused her career on the development of medical microrobots for assisted reproduction and localized release of therapies for the treatment of gynecological cancer.

Researchers observe extremely squeezed directional THz waves in thin semiconductor crystals

Polaritons are hybrid states of light and matter that arise from the coupling of light with matter excitations. Plasmon and phonon polaritons are among the most prominent examples, formed by the coupling of light to collective electron oscillations and crystal lattice vibrations, respectively. They play a crucial role in various applications, from sub-diffraction optical spectroscopy and ultrasensitive chemical sensors to ultracompact modulators for communication applications.

Nano-scale molecular detective: New on-chip device uses exotic light rays in 2D material to detect molecules

Molecules have some sort of fingerprints, unique features that can be used to differentiate them. Each type of molecule, when illuminated with the right light, vibrates at a characteristic frequency (its resonance frequency, which typically occurs at infrared frequencies) and strength. Similar to what can be done with human fingerprints, one can exploit this information to distinguish different types of molecules or gases from each other.

NanoGUNE opens the registration period for the summer internship program

In the framework of this program, the Basque nanoscience research center will be receiving this summer at least ten new students in their 3rd and 4th years of Physics, Chemistry, Biology, and Engineering. For a period of two months, undergraduates will be collaborating with nanoGUNE researchers in their research projects in the areas of nanoscale optics, nanobioengineering, electronic phenomena and magnetism, and nanoscale materials.

Technology developed at CIC nanoGUNE driving forward innovation in the textile industry

Innovation for the textile industry is not exclusively in design and fashion. The industry and the market are increasingly calling for innovative textiles that are adapted for the use for which they are designed. Over the last few decades, nanotechnology has developed various techniques to modify the properties of materials “à la carte”, which is why it is an indisputable ally in the development of new fibers that provide our garments with new properties, making them tougher, more waterproof, UV protective, antimicrobial, stain repellent, etc.

Teaching the world about cutting-edge tools for nanoscale optical imaging

s-SNOM and nano-FTIR are unique optical imaging and spectroscopy tools that enable nanoscale imaging and spectroscopy in a broad spectral range, between visible and terahertz frequencies. Rainer Hillenbrand was one of the researchers involved in the development of these techniques and their commercialization, opening a completely new field of experimental research of optical phenomena and materials properties at the nanoscale.