|Bioink properties before, during and after 3D bioprinting|
K Hölzl, S Lin, L Tytgat, S Van Vlierberghe, L Gu, A Ovsianikov
Biofabrication 8 (3), 032002, 2016
|Ultra-low shrinkage hybrid photosensitive material for two-photon polymerization microfabrication|
A Ovsianikov, J Viertl, B Chichkov, M Oubaha, B MacCraith, I Sakellari, ...
ACS nano 2 (11), 2257-2262, 2008
|Fabrication of woodpile structures by two-photon polymerization and investigation of their optical properties|
J Serbin, A Ovsianikov, B Chichkov
Optics Express 12 (21), 5221-5228, 2004
|Laser fabrication of three-dimensional CAD scaffolds from photosensitive gelatin for applications in tissue engineering|
A Ovsianikov, A Deiwick, S Van Vlierberghe, P Dubruel, L Möller, ...
Biomacromolecules 12 (4), 851-858, 2011
|Laser printing of cells into 3D scaffolds|
A Ovsianikov, M Gruene, M Pflaum, L Koch, F Maiorana, M Wilhelmi, ...
Biofabrication 2 (1), 014104, 2010
|Three-dimensional laser micro-and nano-structuring of acrylated poly (ethylene glycol) materials and evaluation of their cytoxicity for tissue engineering applications|
A Ovsianikov, M Malinauskas, S Schlie, B Chichkov, S Gittard, R Narayan, ...
Acta biomaterialia 7 (3), 967-974, 2011
|Two photon induced polymerization of organic–inorganic hybrid biomaterials for microstructured medical devices|
A Doraiswamy, C Jin, RJ Narayan, P Mageswaran, P Mente, R Modi, ...
Acta Biomaterialia 2 (3), 267-275, 2006
|Two‐photon polymerization technique for microfabrication of CAD‐designed 3D scaffolds from commercially available photosensitive materials|
A Ovsianikov, S Schlie, A Ngezahayo, A Haverich, BN Chichkov
Journal of tissue engineering and regenerative medicine 1 (6), 443-449, 2007
|Two photon polymerization of polymer–ceramic hybrid materials for transdermal drug delivery|
A Ovsianikov, B Chichkov, P Mente, NA Monteiro‐Riviere, A Doraiswamy, ...
International journal of applied ceramic technology 4 (1), 22-29, 2007
|Three-dimensional biodegradable structures fabricated by two-photon polymerization|
F Claeyssens, EA Hasan, A Gaidukeviciute, DS Achilleos, A Ranella, ...
Langmuir 25 (5), 3219-3223, 2009
|Hydrogels for two‐photon polymerization: A toolbox for mimicking the extracellular matrix|
J Torgersen, XH Qin, Z Li, A Ovsianikov, R Liska, J Stampfl
Advanced Functional Materials 23 (36), 4542-4554, 2013
|A definition of bioinks and their distinction from biomaterial inks|
J Groll, JA Burdick, DW Cho, B Derby, M Gelinsky, SC Heilshorn, ...
Biofabrication 11 (1), 013001, 2018
|Engineering 3D cell-culture matrices: multiphoton processing technologies for biological and tissue engineering applications|
A Ovsianikov, V Mironov, J Stampfl, R Liska
Expert review of medical devices 9 (6), 613-633, 2012
|Shrinkage of microstructures produced by two-photon polymerization of Zr-based hybrid photosensitive materials|
A Ovsianikov, X Shizhou, M Farsari, M Vamvakaki, C Fotakis, ...
Optics Express 17 (4), 2143-2148, 2009
|Three-dimensional photofabrication with femtosecond lasers for applications in photonics and biomedicine|
A Ovsianikov, A Ostendorf, BN Chichkov
Applied Surface Science 253 (15), 6599-6602, 2007
|Directed three-dimensional patterning of self-assembled peptide fibrils|
V Dinca, E Kasotakis, J Catherine, A Mourka, A Ranella, A Ovsianikov, ...
Nano letters 8 (2), 538-543, 2008
|Laser photofabrication of cell-containing hydrogel constructs|
A Ovsianikov, S Mühleder, J Torgersen, Z Li, XH Qin, S Van Vlierberghe, ...
Langmuir 30 (13), 3787-3794, 2014
|Three-dimensional cell growth on structures fabricated from ORMOCER® by two-photon polymerization technique|
S Schlie, A Ngezahayo, A Ovsianikov, T Fabian, HA Kolb, H Haferkamp, ...
Journal of biomaterials applications 22 (3), 275-287, 2007
|Laser fabrication of 3D gelatin scaffolds for the generation of bioartificial tissues|
A Ovsianikov, A Deiwick, S Van Vlierberghe, M Pflaum, M Wilhelmi, ...
Materials 4 (1), 288-299, 2011
|The synergy of scaffold-based and scaffold-free tissue engineering strategies|
A Ovsianikov, A Khademhosseini, V Mironov
Trends in biotechnology 36 (4), 348-357, 2018