Magnetic Nanostructure Characterization: Technology & Applications
MagnaCharta is settled in         Balkan Center: KEDEK: Building A. Room: 0.3
MagnaCharta, A.0.3, PO Box 8318, Balkan Center-KEDEK, 57001, Thessaloniki-Greece
Services We are in position to routinely provide the following services upon request: - fabricate magnetic nanomaterials: Magnetic Nanoparticles 1 , 2   & Thin Films and Multilayers 3 , 4 - perform experiments and simulations on AC/DC magnetic field - nanosystem interaction Static Magnetometry: M-H & M-T curves (H max =1.2 T, T=77-400 K), Samples: thin films, nanopowders, liquid suspensions 5 , 6 , 7 Magnetic Device Design and Calibration. 8 Magnetic Particle Hyperthermia: 1 00-800 kHz, H max =80 mT, Samples: colloids, phantoms, ex-vivo, in-vitro, in-vivo. 9 , 10 , 11 , 12   Magneto-Mechanical Treatments: 0-16 Hz, 0-200 mT, Samples: in-vitro, in-vivo. 13  
Fabrication: e-beam evaporation in ultra-high vacuum preparation of thin films and multilayers,    thermal decomposition,surfactant assisted ball-milling and aqueous coprecipitation  of colloidal nanoparticles.
Structure: X-ray Diffraction (XRD), Microscopy: Transmission Electron (TEM), Scanning Electron (SEM), Atomic Force  (AFM).
In-vitro testing
UHV chamber
UHV system
Furnace Annealing
Chemical Synthesis
Solar Evaporation
TEM: Multilayer
HRTEM: Particles
VSM magnetometry
Exchange-bias effect
Magnetic Hyperthermia
Heat mapping
Heating efficiency
Properties: Corellation of structure and morphology with magnetic features and heating efficiency: Simulations & Experiments.
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