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MultiFAB
  • Home
  • About MultiFAB
    • Project description
    • Financial support and partners
    • Who are we?
  • Facilities
    • High resolution 3D printing
      • Nanoscribe
      • Dilase 3D HR
    • Bio printing
      • L.A.M.P
      • DWS J29+
      • Dilase 3D bio
    • Inkjet
    • Material Melting / Sintering
  • Applications
    • 3D hydrogel printing
      • 3D hydrogel scaffolds for neuronal cell growth
      • PEGDA 3D scaffolds reproducing intestinal epithelium topography
    • 3D printed scaffolds for cell culture
      • Polymeric Freestanding Architectures for Cell Colonization
      • 3D printed trabecular bone phantoms
    • 3D Microfluidic devices
      • DLD: hydrodynamic microfluidic device
      • Pachinko device: hydrodynamic cell trapping array
    • 3D Microdevices
      • Direct laser fabrication of meso-scale 2D and 3D architectures with micrometric feature resolution
      • Direct shaping of oxides by laser insolation of transition metal oxalates
      • Thermoelectric Higher Manganese Silicide
    • Thin film processing:
      • Towards inkjet printable conducting polymer artificial muscles
      • Realization of an Asymmetric Interdigitated Electrochemical Micro-Capacitor Based on Carbon Nanotubes and Manganese Oxide
  • Communications
  • Training
  • Contacts us

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Home»About MultiFAB

About MultiFAB:

  • Project description
  • Financial support and partners
  • Who are we?