Skip to main content
CIC nanoGUNE
  • en
  • es
  • eu

User account menu

  • Log in

Main Menu ES

  • nanoGUNE
    • At a Glance
    • Organization & Funding
    • People
    • Join us
    • Life
    • Newsroom
    • nanoPeople
  • Research
    • Research
    • Publications
    • Projects
    • External services
  • TechTransfer
    • TechTransfer
    • Start-ups
    • IP Portfolio
    • Industry collaborative research positions
    • Strategic lines
    • External services
    • News & events
  • Training
    • Master projects
    • Bachelor Final Projects
    • Summer Internships
    • Education University PHD
  • Society

User menu

  • Log in
  1. Home
  2. Projects
  3. MagNonMag - Magnetic order induced in nonmagnetic solids

MagNonMag - Magnetic order induced in nonmagnetic solids

MagNonMag - Magnetic order induced in nonmagnetic solids
Funding Program
EU - FP7
Coordinator
Lappeenrannan Teknillinen Yliopsisto - Finland
Call
FP7-PEOPLE-2011-IRSES
Project ID
295180
PI at nanoGUNE
Andrei Shelankov
From
01/04/2012
To
31/03/2016
Total funding
524 700 €
Contribution to nanoGUNE
101 100 €
Web
cordis.europa.eu/project/id/295180
Research group
Electron Microscopy
The principal objective of this project is to bring together leading research groups in the field of nanomagnetim, to explore recently discovered phenomena related to nanomagnetism in otherwise nonmagnetic materials, and to exploit new developments in nanoscale semiconductor spintronics.

The aim of the MagNonMag project is to establish a long-lasting collaboration in the frames of a research program the goal of which is to develop novel methods of control and manipulation of the magnetic degree of freedom in nominally nonmagnetic materials, in view of their potential for nanoscience and nanotechnology.

The principal objective of the this project is to bring together leading research groups in the field of nanomagnetism and establish an interdisciplinary training ground for both early-stage researchers and experienced researches, enhancing information partnership between theoretical and experimental research groups working in physics, chemistry, material science, and nanotechnology.

The project is focused on nanomagnetism – magnetism shown by some materials on the nanoscale even if magnetically inert in the bulk – a novel physical effect with a potential for the emerging spintronics technology. The MagNonMag project will study the possibility to control magnetism by various means such as introducing sp impurities and defects in nonmagnetic materials through ion bombardment, fluorination, and transmutation doping.

The objects under investigation are IV group elements with the emphasis on graphite/graphene systems. Induced magnetism phenomena studied in this project have the potential to provide new effects and functionalities which are highly desirable and of great technological and economical relevance. The synergy of the scientific strength of the Russian Academy Institutes with the technological and analytical potential in the research groups in EU (Sweden, Spain, and Italy) and Australia provides a valuable opportunity to study and understand novel phenomena of induced nanomagnetism which is promising for nanotechnology applications.

Partners
  • Lappeenrannan Teknillinen Yliopsisto - Finland (Coordinator)
  • UMEA Universitet - Sweden
  • CIC nanoGUNE - Spain
  • UNIVERSITA DEGLI STUDI DI PARMA - Italy
Keywords
Graphene
  • whatsapp
  • facebook
  • twitter
  • linkedin
  • print

By funding program

  • - Any -
  • ERA.NET
  • EU - FP7
  • European Commission
  • EU - Horizon Europe
  • EU - Horizon 2020
  • FET Open
  • Initial Training Network (ITN)
  • MSCA - Individual Fellowship
  • Spanish Government
  • CIC nanoGUNE
  • Tolosa Hiribidea, 76
  • E-20018 Donostia / San Sebastian
  • +34 943 574 000 · nano@nanogune.eu
  • Facebook Twitter Youtube Linkedin Instagram Subscribe to our Newsletter

Menú pie principal

  • nanoGUNE
  • Research
  • TechTransfer
  • Training
  • Society
  • nanoPeople

Menú pie servicios

  • External services
  • Publications
  • Seminars
  • Join us
  • Newsroom
  • Contractor profile
  • Corporate Compliance

Menú pie grupos

  • Nanomagnetism
  • Nanooptics
  • Self Assembly
  • Nanobiosystems
  • Nanodevices
  • Electron Microscopy

Menú pie grupos 2

  • Theory
  • Nanomaterials
  • Quantum-Probe Microscopy
  • Nanoengineering
  • Quantum Hardware

Funded by

  • EJ/GV
  • Diputación
  • FEDER
  • FEDER
  • Ministerio de Ciencia e Innovación

Member of

  • BRTA
  • SOMM

Distinctions

  • Distinción de Excelencia María de Maeztu 2022-2025
  • Excellence Research
  • UNE-166002

Menú legales

  • Accesibility
  • Legal notice
  • Privacy policy
  • Cookies policy
  • Confidentiality policy
by ACC