Mangirdas Malinauskas

NAME

Mangirdas Malinauskas

POSITION TITLE

Research Fellow

ADDRESS:

Vilnius University, Physics Faculty,
Department of Quantum Electronics
Saulėtekio 9, bld. III
LT-10222, Vilnius, Lithuania
Tel: +370 6000 2843
E-mail: mangirdas.malinauskas@ff.vu.lt

EDUCATION

INSTITUTION AND LOCATION DEGREE YEAR FIELD OF STUDY
Vilnius University, Lithuania B.S. 2004 Physics
Vilnius University, Lithuania M.S. 2006 Physics
Vilnius University, Lithuania PhD 2010 Physics

RESEARCH AND/OR PROFESSIONAL EXPERIENCE

Professional Experience:

2004 09 – 2005 03VU Laser Research Center, LithuaniaLaboratory assistant
2005 04 – 2005 08Laser Zentrum Hannover, GermanyLaboratory assistant
2005 10 – 2006 06VU Laser Research Center, LithuaniaLaboratory assistant
2006 07 – 2006 11Altechna Co. Ltd., LithuaniaPhysicist investigator
2006 10 – 2007 10VU Laser Research Center, LithuaniaYoung research fellow
2007 11 – 2008 01 Laser Zentrum Hannover, Germany Research assistant
2008 02 – 2008 09VU Laser Research Center, LithuaniaYoung research fellow
2008 10 – 2008 11Laser Zentrum Hannover, Germany Cooperate researcher
2008 12 – 2009 08VU Laser Research Center, LithuaniaYoung research fellow
2009 09 – 2009 12FORTH institute, GreeceCooperate researcher
2012 01 – currentlyLaser Research Center, Vilnius University

Research interests:

Multiphoton polymerization, 3D nanostructuring, development of photopolymers for laser direct writing, functional structures for bio-applications, photonics and microoptics, characterization of microstructures, nonlinear microscopy, laser assisted microfabrication, UV lithography, digital image processing, solar cells.

Professional certification, membership:

2006 07 10 – 22, Summer School on “Optoelectronics, Lasers and Applications”, Technological Educational Institute of Crete, Chania, Crete, Greece.
2007 06 Summer School on “STELLA” Vilnius University, Vilnius, Lithuania.
2008 07 13 – 15 Young researcher award for best presentation in “5th International Conference on Nanosciences & Nanotechnologies” (NN08), Thessaloniki, Greece.
2011 – Vilnius University Rector’s Award for Achievements
2012 – Best Young Researcher Grant by Lithuanian Academy of Sciences

Research grants:

Lithuanian State Science and Studies Foundation grant B09/08 (Laser Micro-Processing With High Repetition Femtosecond Pulses – FEMTOPROCESSING).

Selected publications: (of last 5 years):

Publications:

    • ISI-WOS Journal Articles with Impact Factor:
  1. P. Danilevicius, S. Rekstyte, E. Balciunas, A. Kraniauskas, R. Sirmenis, D. Baltriukiene, V. Bukelskiene, R. Gadonas, V. Sirvydis, A. Piskarskas and M. Malinauskas, Laser 3D Micro/Nanofabrication of Polymers for Tissue Engineering Applications, Opt. Laser. Technol., 45, 518-524 (2013). [IF – 1.616]
  2. M. Malinauskas, A. Zukauskas, V. Purlys, A. Gaidukeviciute, Z. Balevicius, A. Piskarskas, C. Fotakis, S. Pis- sadakis, D. Gray, R. Gadonas, M. Vamvakaki, M. Farsari, 3D microoptical elements formed in a photostructurable germanium silicate by direct laser writing, Opt. Laser Eng., 50(12), 1785-1788 (2012). [IF – 1.838]
  3. A. Zukauskas, M. Malinauskas, C. Reinhardt, B.N. Chichkov and R. Gadonas, Closely packed hexagonal conical microlens array fabricated by direct laser photopolymerization, Appl. Optics, 51(21), 4995-5003 (2012). [IF – 1.707]
  4. M. Malinauskas, D. Baltriukiene, A. Kraniauskas, P. Danilevicius, R. Jarasiene, R. Sirmenis, A. Zukauskas, E. Balciunas, V. Purlys, R. Gadonas, V. Bukelskiene, V. Sirvydis and A. Piskarskas, In vitro and in vivo biocom- patibility study on laser 3D microstructurable polymers, Appl. Phys. A, 108(3), 751-759 (2012). [IF – 1.765]
  5. P. Danilevicius, S. Rekstyte, E. Balciunas, A. Kraniauskas, R. Jarasiene, R. Sirmenis, D. Baltriukiene, V. Bukelskiene, R. Gadonas and M. Malinauskas, Micro-Structured Polymer Scaolds Fabricated by Direct Laser Writing for Tissue Engineering, J. Biomed. Optics 17(8), 081405 (2012). [IF – 3.659]
  6. M. Malinauskas, A. Zukauskas, K. Belazaras, K. Tikuisis, V. Purlys, R. Gadonas and A. Piskarskas, Laser fabrication of various polymer micro-optical components, Eur. Phys. J-Appl. Phys. 58, 20501 (2012). [IF – 0.899]
  7. P. Danilevicius, S. Rekstyte, E. Balciunas, A. Kraniauskas, R. Sirmenis, D. Baltriukiene, M. Malinauskas, V. Bukelskiene, R. Gadonas, V. Sirvydis, A. Piskarskas, Mat. Sci. (Medziagotyra) 18(2), 145-149 (2011). [IF – 0.4]
  8. E. Stankevicius, T. Gertus, M. Rutkauskas, M. Gedvilas, G. Raciukaitis, R. Gadonas, V. Smilgevicius and M. Malinauskas, Fabrication of micro-tube arrays in photopolymer SZ2080 by using three different methods of a direct laser polymerization technique, J. Micromech. Microeng. 22, 065022 (2012). [IF – 2.281]
  9. D. Paipulas, V. Kudriasov, M. Malinauskas, V. Smilgevicius, V. Sirutkaitis, Diffraction grating fabrication in lithium niobate and KDP crystals with femtosecond laser pulses, Appl. Phys. A. 104(3), 769-773 (2011). [IF – 1.765]
  10. I. Dumbryte, L. Linkeviciene, M. Malinauskas, T. Linkevicius, V. Peciuliene and K. Tikuisis, Evalua-
    tion of enamel micro-cracks characteristics after removal of metal brackets in adult patients, Eur. J. Orthod. doi:10.1093/ejo/cjr137 (2011). [IF – 0.893]
  11. E. Stankevicius, M. Malinauskas, G. Mindaugas, B. Voisiat, G. Raciukaitis, Fabrication of Periodic Micro- Structures by Multi-Photon Polymerization Using the Femtosecond Laser and Four-Beam Interference, Mat. Sci. (Medziagotyra) 17(3), 244-248 (2011). [IF – 0.4]. Times Cited: 4.
  12. J. Trull, L. Maigyte, V. Mizeikis, M. Malinauskas, S. Juodkazis, C. Cojocaru, M. Rutkauskas, M. Peckus, V. Sirutkaitis, and K. Staliunas, Formation of collimated beams behind the woodpile photonic crystal, Phys. Rev. A 84(3), 033812 (2011). [IF – 2.861]. Times Cited: 9.
  13. A. Ovsianikov, M. Malinauskas, S. Schlie, B. Chichkov, S. Gittard, R. Narayan, M. Lobler, K. Sternberg, K.-P. Schmitz, A. Haverich, Three-dimensional laser micro- and nano-structuring of acrylated poly(ethylene glycol) materials and evaluation of their cytoxicity for tissue engineering applications, Acta Biomater. 7(3), 967-974 (2011). [IF – 4.822]. Times Cited: 19.
  14. M. Malinauskas, P. Danilevicius, and S. Juodkazis, Three-dimensional micro-/nano-structuring via direct write polymerization with picosecond laser pulses, Opt. Express 19, 5602-5610 (2011). [IF – 3.753]. Times Cited: 14.
  15. M. Malinauskas, P. Danilevicius, D. Baltriukiene, M. Rutkauskas, A. Zukauskas, Z. Kairyte, G. Bick- auskaite, V. Purlys, D. Paipulas, V. Bukelskiene, and R. Gadonas, 3D artificial polymeric scaffolds for stem cell growth fabricated by femtosecond laser, Lith. J. Phys. 50(1), 75-82 (2010). [IF – 0.238]. Times Cited: 15.
  16. M. Malinauskas, A. Zukauskas, V. Purlys, K. Belazaras, A. Momot, D. Paipulas, R. Gadonas, A. Piskarskas, H. Gilbergs, A. Gaidukeviciute, I. Sakellari, M. Farsari and S. Juodkazis, Femtosecond laser polymerization of hybrid/integrated micro-optical elements and their characterization, J. Opt. 12(12), 124010 (2010). [IF – 1.662].
    Times Cited: 14.
  17. M. Malinauskas, H. Gilbergs, A. Zukauskas, V. Purlys, D. Paipulas and R. Gadonas, A femtosecond laser-
    induced two-photon photopolymerization technique for structuring microlenses, J. Opt. 12(3), 035204 (2010). [IF -1.662]. Times Cited: 14.
  18. M. Malinauskas, V. Purlys, M. Rutkauskas, A. Gaidukeviciute, and R. Gadonas, Femtosecond Visible Light Induced Two-Photon Photopolymerization for 3D Micro/Nanostructuring in Photoresists and Photopolymers, Lith. J. Phys. 50(2),201-207 (2010). [IF – 0.238]. Times Cited: 5.
  19. D. Paipulas, V. Kudriasov, K. Kurselis, M. Malinauskas, V. Sirutkaitis, Manufacturing of Diffractive Elements in Fused Silica Using High Repetition Rate Femtosecond Yb:KGW Laser Pulses, Lith. J. Phys. 50(1), 129-134 (2010). [IF – 0.238]
  20. M. Malinauskas, A. Zukauskas, G. Bickauskaite, R. Gadonas and S. Juodkazis, Mechanisms of three- dimensional structuring of photo-polymers by tightly focussed femtosecond laser pulses, Opt. Express 18(1)0, 10209-10221 (2010). [IF – 3.753]. Times Cited: 37.
  21. A. Zukauskas, M. Malinauskas, L. Kontenis, V. Purlys, D. Paipulas, M. Vengris and R. Gadonas, Organic Dye Doped Microstructures for Optically Active Functional Devices Fabricated via Two-Photon Polymerization Technique, Lith. J. Phys. 50(1), 55-61 (2010). [IF – 0.238]. Times Cited: 5.
  22. E. Brasselet, M. Malinauskas, A. Zukauskas and S. Juodkazis, Photopolymerized microscopic vortex beam generators: Precise delivery of optical orbital angular momentum, Appl. Phys. Lett. 97(21), 211108 (2010). [IF – 3.820]. Times Cited: 12.
  23. D. Paipulas, V. Kudriasov, K. Kurselis, M. Malinauskas, S. Ost, V. Sirutkaitis, Volume Bragg Grating Formation in Fused Silica with High Repetition Rate Femtosecond Yb:KGW Laser Pulses, JLMN, 5(3), 218-222 (2010). Times Cited: 1.
  24. M. Malinauskas, G. Bickauskaite, M. Rutkauskas, D. Paipulas, V. Purlys, R. Gadonas, Self-polymerization of nano-fibres and nano-membranes induced by two-photon absorption, Lith. J. Phys. 50(1), 135-140 (2010). [IF – 0.238]. Times Cited: 6.
    • ISI-WOS Journal Articles:
  25. E. Stankevicius, E. Balciunas, M. Malinauskas, G. Raciukaitis, D. Baltriukiene and V. Bukelskiene, Holo- graphic lithography for biomedical applications, Proc. SPIE 8433, 843312 (2012).
  26. S. Rekstyte, A, Zukauskas, V. Purlys, Y. Gordienko and M. Malinauskas, Direct laser writing of 3D mi- cro/nanostructures on opaque surfaces, Proc. SPIE 8431 843123 (2012.)
  27. A. Zukauskas, K. Tikuisis, M. Sciuka, A. Melninkaitis, R. Gadonas, C. Reinhardt, M. Malinauskas, Single- step direct laser fabrication of complex shaped microoptical components Proc. SPIE 8428, 84280K (2012).
  28. E. Balciunas, L. Jonusauskas, V. Valuckas, D. Baltriukiene, V. Bukelskiene, R. Gadonas and M. Mali nauskas, Lithographic microfabrication of biocompatible polymers for tissue engineering and lab-on-a-chip appli- cations, Proc. SPIE 8427, 84271X (2012).
  29. L. Maigyte, J. Trull, V. Mizeikis, M. Malinauskas, S. Juodkazis, C.M. Cojocaru, M. Rutkauskas, M. Peckus, V. Sirutkaitis and K. Staliunas, Woodpile photonic crystal for beam collimation, Proc. SPIE 8425, 842511 (2012).
  30. T. Suzuki, J. Morikawa, T. Hashimoto, R. Buividas, G. Gervinskas, D. Paipulas, M. Malinauskas, V. Mizeikis
    and S. Juodkazis, Thermal and optical properties of sol-gel and SU-8 resists, Proc. SPIE 8249, 82490K (2012).
  31. M. Malinauskas, P. Danilevicius, E. Balciunas, S. Rekstyte, E. Stankevicius, D. Baltriukiene, V. Bukelskiene, G. Raciukaitis, R. Gadonas, Applications of nonlinear laser nano/microlithography: fabrication from nanophotonic
    to biomedical components, Proc. SPIE 8204, 820407 (2012). Times Cited: 2.
  32. L. Maigyte, M. Rutkauskas, M. Malinauskas, V. Mizeikis, S. Juodkazis, M. Peckus, V. Sirutkaitis, K. Stal-
    iunas, Laser polymerization of Photonic Crystals for collimation of beams at visible wavelengths, Proc. ICTON We.D4.3 (2011).
  33. E. Stankevicius, M. Malinauskas, G. Raciukaitis, Fabrication of Scaffolds and Micro-Lenses Array in a Negative Photopolymer SZ2080 by Multi-Photon Polymerization and Four-Femtosecond-Beam Interference, Phys. Procedia 12, 82-88 (2011). Times Cited: 3.
  34. M. Malinauskas, A. Gaidukeviciute, V. Purlys, A. Zukauskas, I. Sakellari, E. Kabourak, A. Candiani, D. Gray, S. Pissadakis, R. Gadonas, A. Piskarskas, C. Fotakis, M. Vamvakaki and M. Farsari, Direct laser writing of microoptical structures using a Ge-containing hybrid material, Metamaterials 5(23), 135140 (2011).
  35. M. Malinauskas, A. Zukauskas, K. Belazaras, V. Purlys, M. Rutkauskas, G. Bickauskaite, A. Momot, D. Paipulas, R. Gadonas and A. Piskarskas, Femtosecond laser fabrication of hybrid micro-optical elements and their integration on the fiber tip, Proc. SPIE 7716, 77160A (2010). Times Cited: 2.
  36. M. Malinauskas, V. Purlys, A. Zukauskas, M. Rutkauskas, P. Danilevicius, D. Paipulas, G. Bickauskaite, L. Bukelskis, D. Baltriukiene, R. Sirmenis, A. Gaidukeviciute, V. Bukelskiene, R. Gadonas, V. Sirvydis and A. Piskarskas, Large Scale Laser Two-Photon Polymerization Structuring for Fabrication of Artificial Polymeric Scaf- folds for Regenerative Medicine, Proc. AIP 1288, 12-17 (2010). Times Cited: 1.
  37. M. Malinauskas, V. Purlys, A. Zukauskas, G. Bickauskaite, T. Gertus, P. Danilevicius, D. Paipulas, M. Rutkauskas, H. Gilbergs, L. Bukelskis, R. Gadonas, A. Piskarskas, D. Baltriukiene, V. Bukelskiene, R. Sir- menis and V. Sirvydis, Laser Two-Photon Polymerization Micro- and Nanostructuring Over a Large Area on Various Substrates, Proc. SPIE 7715, 77151F (2010). Times Cited: 2.
  38. M. Malinauskas, V. Purlys, M. Rutkauskas, R. Gadonas, Two-photon polymerization for fabrication of three-dimensional micro- and nanostructures over a large area, Proc. SPIE 7204, 72040C (2009). Times Cited: 2.
    • Other Articles in Scientific Journals:
  39. A. Zukauskas, M. Rutkauskas and M. Malinauskas, Femtosecond Laser Direct Writing of Microoptical and Photonic Microstructures of Novel Hybrid Photopolymers Proc. CYSENI (2011).
  40. P. Danilevicius, E. Balciunas and M. Malinauskas, Laser 3D Fabrication of Polymeric Micro/ Nanostructures for Biomedical Applications, Proc. CYSENI (2011).
  41. P. Danilevicius, A. Zukauskas, G. Bickauskaite, V. Purlys, M. Rutkauskas, T. Gertus, D. Paipulas, J. Matukai- te, D. Baltriukiene and M. Malinauskas, Laser 3D Micro/Nanofabrication of Polymers for Tissue Engineering Ap- plications, Latvian J. Phys. Tech. Sci. 48(2), 32-43 (2011).
  42. M. Malinauskas, A. Zukauskas, G. Bickauskaite, M. Rutkauskas, K. Belazaras, H. Gilbergs, P. Danilevicius, V. Purlys, D. Paipulas, T. Gertus, R. Gadonas, A. Piskarskas, D. Baltriukien, V. Bukelskien and A. Gaidukevi- ciute, Fabrication of Three-Dimensional Nanostructures by Laser Polymerization Technique, Proc. CYSENI (2010).
    • Science Promotion Articles:
  43. V. Bukelskiene, M. Malinauskas and R. Gadonas, Bioaudiniai natūralių audinių pakaitalas, Spectrum 1(16), 19-21 (2012).
    A. Zukauskas, P. Danilevicius and M. Malinauskas, Tiesioginis lazerinis rašymas: principai ir taikymai, Mokslas ir gyvenimas, 11-12/ 23-25/2-4 (2011/2012).
  44. M. Malinauskas, E. Brasselet and S. Juodkazis, Fine structuring of integrated micro-optical components using lasers, SPIE Newsroom July 22nd, (2011).
  45. G. Bickauskaite and M. Malinauskas, Funkcinių trimačių darinių formavimas lazerinės daugiafotonės polimerizacijos būdu, Jaunasis tyrėjas 3, 42-45 (2011).
  46. O. Balachninaite and M. Malinauskas, Naujos Vilniaus universiteto lazerinių tyrimų centro mokslinės kryptys, Fizikų žinios 36, 5-7 (2009).
  47. M. Malinauskas, V. Bukelskiene and R. Sirmenis, Biomedžiagos ir audinių inžinerija, Mokslas ir gyvenimas 10(2-4), 18-19 (2009).
    • Book Chapters:
  48. G. Bickauskaite and M. Malinauskas, Medžiagotyra Vilniaus universiteto Lazerinių tyrimų centre, Material Sci- ences in Lithuania, (2011).

Invited talks at conferences:

  1. M. Malinauskas, A. Zukauskas, P. Danilevicius, M. Rutkauskas, S. Rekstyte, V. Purlys and R. Gadonas, Applications of nonlinear laser nano/microlithography: fabrication from nanophotonic to biomedical components, SPIE Smart Nano-Micro Materials and Devices, Melbourne, Australia (2011 December 5-7).
  2. M. Malinauskas, Trimaciu polimeriniu dariniu lazerinis mikro/nano-formavimas ir taikymai, Chemija ir cheminė technologija, Kaunas, (2011 April 27).
  3. M. Malinauskas, Ultrafast laser 3D nanostructuring of photopolymers, 53rd Scientic Conference for Young Students of Physics and Natural Sciences, Vilnius, Lithuania, (2010 March 3).