Aleksandr Ovsianikov

Summary

Affiliation: Laser Zentrum Hannover e.V
Country: Germany

Publications

  1. ncbi Shrinkage of microstructures produced by two-photon polymerization of Zr-based hybrid photosensitive materials
    Aleksandr Ovsianikov
    Department of Nanotechnology of Laser Zentrum Hannover e V, Hollerithallee 8, D 30419 Hannover, Germany
    Opt Express 17:2143-8. 2009
  2. doi Laser printing of cells into 3D scaffolds
    A Ovsianikov
    Nanotechnology Department, Laser Zentrum Hannover eV, Hollerithallee 8, 30419 Hannover, Germany
    Biofabrication 2:014104. 2010
  3. ncbi Two-photon polymerization technique for microfabrication of CAD-designed 3D scaffolds from commercially available photosensitive materials
    Aleksandr Ovsianikov
    Laser Zentrum Hannover e V, Hollerithallee 8, D 30419 Hannover, Germany
    J Tissue Eng Regen Med 1:443-9. 2007
  4. doi Ultra-low shrinkage hybrid photosensitive material for two-photon polymerization microfabrication
    Aleksandr Ovsianikov
    Nanotechnology Department, Laser Zentrum Hannover eV, Hannover, Germany
    ACS Nano 2:2257-62. 2008
  5. ncbi Three-dimensional cell growth on structures fabricated from ORMOCER by two-photon polymerization technique
    Sabrina Schlie
    Institute of Biophysics, University Hannover, Herrenhäuserstr 2, D 30419 Hannover, Germany
    J Biomater Appl 22:275-87. 2007
  6. doi Laser fabrication of three-dimensional CAD scaffolds from photosensitive gelatin for applications in tissue engineering
    Aleksandr Ovsianikov
    Laser Zentrum Hannover eV, Hollerithallee 8, D 30419 Hannover, Germany
    Biomacromolecules 12:851-8. 2011

Detail Information

Publications6

  1. ncbi Shrinkage of microstructures produced by two-photon polymerization of Zr-based hybrid photosensitive materials
    Aleksandr Ovsianikov
    Department of Nanotechnology of Laser Zentrum Hannover e V, Hollerithallee 8, D 30419 Hannover, Germany
    Opt Express 17:2143-8. 2009
    ..Well above the polymerization threshold, the studied material exhibits remarkably low shrinkage. Therefore, no additional effort for the pre-compensation of distortion and for the improvement of structural stability is required...
  2. doi Laser printing of cells into 3D scaffolds
    A Ovsianikov
    Nanotechnology Department, Laser Zentrum Hannover eV, Hollerithallee 8, 30419 Hannover, Germany
    Biofabrication 2:014104. 2010
    ..Combination of LIFT and 2PP provides a route for the realization of 3D multicellular tissue constructs and artificial ECM engineered on the microscale...
  3. ncbi Two-photon polymerization technique for microfabrication of CAD-designed 3D scaffolds from commercially available photosensitive materials
    Aleksandr Ovsianikov
    Laser Zentrum Hannover e V, Hollerithallee 8, D 30419 Hannover, Germany
    J Tissue Eng Regen Med 1:443-9. 2007
    ..The possibilities of seeding 3D structures with cells were analysed. These studies demonstrate the great potential of 2PP technique for the manufacturing of scaffolds with controlled topology and properties...
  4. doi Ultra-low shrinkage hybrid photosensitive material for two-photon polymerization microfabrication
    Aleksandr Ovsianikov
    Nanotechnology Department, Laser Zentrum Hannover eV, Hannover, Germany
    ACS Nano 2:2257-62. 2008
    ....
  5. ncbi Three-dimensional cell growth on structures fabricated from ORMOCER by two-photon polymerization technique
    Sabrina Schlie
    Institute of Biophysics, University Hannover, Herrenhäuserstr 2, D 30419 Hannover, Germany
    J Biomater Appl 22:275-87. 2007
    ..Additionally, growth of cells on the vertical surfaces of 3D structures composed of ORMOCER is shown...
  6. doi Laser fabrication of three-dimensional CAD scaffolds from photosensitive gelatin for applications in tissue engineering
    Aleksandr Ovsianikov
    Laser Zentrum Hannover eV, Hollerithallee 8, D 30419 Hannover, Germany
    Biomacromolecules 12:851-8. 2011
    ..The results clearly indicate that 2PP is capable of manufacturing precisely constructed 3D tissue engineering scaffolds using photosensitive polymers as starting material...