FRINATEK-Fri prosj.st. mat.,naturv.,tek

Complex Matter Science at CAS

Using "complexity" as a modern term in science means to accept that nature is rarely governed by simple linear relations, but instead shows features that originate from inherent non-linearities; a world that evolves and adapts dynamically, and often drive n far away from simple equilibrium. Our ...

Tildelt: kr 2,4 mill.

Prosjektperiode: 2011-2013

Sted: Oslo

IS-DAAD-Forskerutveksl. Norge-Tyskland

Magneto-Optical Imaging of superconducting iron-based thin films

The scientific goal of this project is a detailed magneto-optical investigation of iron based superconductors. Magneto-Optical Imaging (MOI) is a versatile method to probe critical current density profiles in superconductors. The technique is well develop ed and is capable of addressing a plethor...

Tildelt: kr 60 766

Prosjektperiode: 2011-2013

Sted: Oslo

FRINATEK-Fri prosj.st. mat.,naturv.,tek

Nanopatterned Superconductors for Energy and ICT Applications

This project addresses key questions and challenges in modern research on superconductors as important materials for energy transport/storage and electronic devices. In any such application the central issue is how to avoid motion of the Abrikosov vortice s, which represent both energy loss and e...

Tildelt: kr 3,2 mill.

Prosjektperiode: 2009-2012

Sted: Oslo

SUP-NHD-Strategiske UoH-progr.fin.NHD

Magnetic motors for Ugelstad sphere manipulation: Novel materials and concepts for Lab-on-a-chip

Major technological attempts are today being made to produce materials and engineer systems suitable for so-called Lab-on-a-chip. These are devices capable of performing selected biochemical reactions and accurate analyses on a single chip. The key challe nge here is to develop materials and tech...

Tildelt: kr 3,5 mill.

Prosjektperiode: 2008-2013

Sted: Oslo

ENERGIX-Stort program energi

Terminert Optical and electrical properties of nanostructured materials for energy conversion

The project is aimed at acquiring the fundamental knowledge on formation, optical, electrical, and thermal properties of nano-structured solar cells by combination of fabrication, characterization, and modeling methods. We will investigate possibilities o f enhancing efficiency of different inorg...

Tildelt: kr 3,1 mill.

Prosjektperiode: 2008-2013

Sted: Oslo

INT-BILAT-BILAT-ordningen

USA - Bilateral collaboration on magnetically controlled nano-machines with bio-related applications

Motion of micro- and nanoscale objects is being used by nature for cell trafficking and delivery of metabolized products. In nanoscience one aims to copy nature's strategies, and apply them to the nanoscale motion of roving sensors, drug delivery and effe ctive transport systems, commonly called ...

Tildelt: kr 0,10 mill.

Prosjektperiode: 2007-2008

Sted: Oslo

TU-Tungt utstyr

Scanning Hall Probe Magnetometer

"Space-Resolved Magnetometry", eller magnetiske malinger med romlig oppløsning er i dag en type eksperimenter som gir særdeles verdifull informasjon om sentrale egenskaper til superledere, magnetiske og magneto-optiske materialer, spesielt i forbindelse m ed utvikling av praktiske anvendelser av ...

Tildelt: kr 1,8 mill.

Prosjektperiode: 2004-2005

Sted: Oslo

F-FYS-Naturvitenskap, fysikk

Manipulation of individual flux quanta in superconductors: an essential step towards "fluxtronics"

By this project we will explore the possibilities to manipulate superconducting vortices - the quantum mechanical entities that carry the magnetic field inside superconductors. In the same way as charge of an electron form the basis of electronics, can on e see that in the future the flux quanta,...

Tildelt: kr 0,20 mill.

Prosjektperiode: 2003-2004

Sted: Oslo