Publications

2025

Ni deposition on nickel foam via the use of high-frequency currents for enhanced hydrogen evolution reaction in alkaline media.

Poimenidis, I.A., Liapakis, M., Klini, A., Farsari, M., Moustaizis, S.D., Loukakos, P.A., & Konsolakis, M.

Journal of Physics and Chemistry of Solids, 207.

Advances in 3D and 4D multi-photon printing for micro and nano photonics [Invited].

Farsari, M.

Optical Materials Express, 15(11), 2770–2791.

3D-printed mirror-less helicity preserving metasurface “mirror” for THz applications.

Yan, J.R., Katsantonis, I., Papamakarios, S., Konstantakis, P., Loulakis, M., Koschny, T., Farsari, M., Tzortzakis, S., & Kafesaki, M.

Nanophotonics, 14(23).

Direct measurement of two-photon absorption and refraction properties of SZ2080™-based resists at 515 nm: Insights into 3D printing.

Stavrou, M., Ladika, D., Skliutas, E., Jukna, V., Gray, D., Farsari, M., Juodkazis, S., & Malinauskas, M.

Nanophotonics, 14(18).

High- and Low-Fluorescent Photoinitiators for Multiphoton Lithography. ACS Applied Polymer Materials.

Ladika, D., Stavrou, M., Zyla, G., Parkatzidis, K., Androulidaki, M., Dumur, F., Farsari, M., & Gray, D.

ACS Applied Polymer Materials.

Laser 3D Micro-/Nano-Structurization of Luminescent Materials.

Harnik, A., Merkininkaite, G., Ladika, D., Ciburys, A., Kabouraki, E., Sakirzanovas, S., Farsari, M., & Malinauskas, M.

Advanced Optical Materials, 13(22).

Film-Based Multi-Photon Lithography for Efficient Printing of Electromagnetic Surface Structures.

Zyla, G., Papamakarios, S., Zografopoulos, D.C., Christoforidou, A., Kenanakis, G., Farsari, M., & Tsilipakos, O.

Advanced Materials Technologies.

Emerging Ta4C3 and Mo2Ti2C3 MXene Nanosheets for Ultrafast Photonics. Advanced Optical Materials.

Stavrou, M., Chacon, B., Farsari, M., Pappa, A.M., Delogu, L.G., Gogotsi, Y., & Gray, D.

Advanced Optical Materials.

Scalable phononic metamaterials: Tunable bandgap design and multi-scale experimental validation.

Meier, T., Korakis, V., Blankenship, B.W., Lu, H.T., Kyriakou, E., Papamakarios, S., Vangelatos, Z., Yildizdag, M.E., Zyla, G., Xia, X.X., Zheng, X.Y., Rho, Y., Farsari, M., & Grigoropoulos, C.P.

Materials & Design, 242, 113778.

A novel physical vapor deposition setup applying high-frequency currents: Deposition of Cu thin films.

Poimenidis, I.A., Liapakis, M., Klini, A., Farsari, M., Moustaizis, S.D., Konsolakis, M., & Loukakos, P.A.

Vacuum, 232, 113839.

Multiphoton and Harmonic Imaging of Microarchitected Materials.

Blankenship, B.W., Pan, D.S., Kyriakou, E., Zyla, G., Meier, T., Arvin, S., Seymour, N., de la Torre, N., Farsari, M., Ji, N., & Grigoropoulos, C.P.

ACS Applied Materials & Interfaces, 17(2), 3887–3896.

2024

Cactus-like Metamaterial Structures for Electromagnetically Induced Transparency at THz frequencies.

Papamakarios, S., Tsilipakos, O., Katsantonis, I., Koulouklidis, A.D., Manousidaki, M., Zyla, G., Daskalaki, C., Tzortzakis, S., Kafesaki, M., & Farsari, M.

ACS Photonics.

Complex mechanical properties of 3D micro-metric pantographic metamaterials fabricated by two-photon polymerization.

Barchiesi, E., Mavrikos, S., Giorgio, I., Grigoropoulos, C., Farsari, M., dell’Isola, F., & Zyla, G.

Continuum Mechanics and Thermodynamics.

X-photon 3D lithography by fs-oscillators: wavelength-independent and photoinitiator-free.

Ladika, D., Butkus, A., Melissinaki, V., Skliutas, E., Kabouraki, E., Juodkazis, S., Farsari, M., & Malinauskas, M.

Light: Advanced Manufacturing, 5(0), 1.

Frontiers of Laser-Based 3D Printing: A Perspective on Multi-Photon Lithography

Zyla, G., & Farsari, M

Laser and Photonics Reviews

Push-Pull Carbazole-Based Dyes: Synthesis, Strong Ultrafast Nonlinear Optical Response, and Effective Photoinitiation for Multiphoton Lithography.

Stavrou, M., Zyla, G., Ladika, D., Dumur, F., Farsari, M., & Gray, D.

ACS Applied Optical Materials

3D micro-devices for enhancing the lateral resolution in optical microscopy.

Zyla, G., Maconi, G., Nolvi, A., Marx, J., Ladika, D., Salmi, A., Melissinaki, V., Kassamakov, I., & Farsari, M.

Light: Advanced Manufacturing, 5.

2023

Laser direct writing of efficient 3D TiO2 nano-photocatalysts.

Syngelakis, I., Manousidaki, M., Kabouraki, E., Kyriakakis, A., Kenanakis, G., Klini, A., Tzortzakis, S., & Farsari, M.

Journal of Applied Physics, 134(23), 234504.

Fabrication of Glass-Ceramic 3D Micro-Optics by Combining Laser Lithography and Calcination.

Balčas, G., Malinauskas, M., Farsari, M., & Juodkazis, S.

Advanced Functional Materials, 33(39).

Strong and Broadband Pure Optical Activity in 3D Printed THz Chiral Metamaterials.

Katsantonis, I., Manousidaki, M., Koulouklidis, A. D., Daskalaki, C., Spanos, I., Kerantzopoulos, C., Tasolamprou, A. C., Soukoulis, C. M., Economou, E. N., Tzortzakis, S., Farsari, M., & Kafesaki, M.

Advanced Optical Materials.

High-resolution lightweight and multifunctional 3D printed scaffolds for cell studies.

Flamourakis, G., Kordas, A., Papageorgiou, M., Pateraki, V., Farsari, M., & Ranella, A.

Results in Materials, 18, 100393.

Two-Photon Polymerization Lithography for Optics and Photonics: Fundamentals, Materials, Technologies, and Applications.

Wang, H., Zhang, W., Ladika, D., Yu, H., Gailevičius, D., Wang, H., Pan, C.-F., Nair, P., Nair, S., Ke, Y., Mori, T., You, J., Chan, E., Ruan, Q., Farsari, M., Malinauskas, M., Juodkazis, S., Gu, M., & Yang, J. K. W.

Advanced Functional Materials, 2214211.

Microlenses Fabricated by Two-Photon Laser Polymerization for Cell Imaging with Non-Linear Excitation Microscopy.

Marini, M., Nardini, A., Vázquez, R. M., Conci, C., Bouzin, M., Collini, M., Osellame, R., Cerullo, G., Kariman, B. S., Farsari, M., Kabouraki, E., Raimondi, M. T., & Chirico, G.

Advanced Functional Materials, 2213926.

Electrodeposited Ni foam electrodes for increased hydrogen production in alkaline electrolysis

Poimenidis, I. A., Papakosta, N., Klini, A., Farsari, M., Konsolakis, M., Loukakos, P. A., & Moustaizis, S. D.

Fuel, 127798, 342

2021

Design and Characterization of Microscale Auxetic and Anisotropic Structures Fabricated by Multiphoton Lithography.

Spanos, I.; Vangelatos, Z.; Grigoropoulos, C.; Farsari, M.

Nanomaterials, 11

Polymerization mechanisms initiated by spatio-temporally confined light.

Skliutas, E.; Lebedevaite, M.; Kabouraki, E.; Baldacchini, T.; Ostrauskaite, J.; Vamvakaki, M.; Farsari, M.; Juodkazis, S.; Malinauskas, M.

Nanophotonics, 10, 1211-1242.

Micro-Ring Resonator Devices Prototyped on Optical Fiber Tapers by Multi-Photon Lithography

Melissinaki, V.; Tsilipakos, O.; Kafesaki, M.; Farsari, M.; Pissadakis, S.

IEEE

Low-autofluorescence, transparent composite for multiphoton 3D printing.

Flamourakis, G.; Kordas, A.; Barmparis, G. D.; Ranella, A.; Farsari, M.

Optical Materials Express, 11, 801-813

2020

Anisotropic and curved lattice members enhance the structural integrity and mechanical performance of architected metamaterials.

Vangelatos, Z.; Komvopoulos, K.; Spanos, J.; Farsari, M.; Grigoropoulos, C

International Journal of Solids and Structures, 193, 287-301.

Split-cube-resonator-based metamaterials for polarization-selective asymmetric perfect absorption.

Tsilipakos, O.; Xomalis, A.; Kenanakis, G.; Farsari, M.; Soukoulis, C. M.; Economou, E. N.; Kafesaki, M.

Scientific Reports, 10.

Multi-photon polymerization of bio-inspired, thymol-functionalized hybrid materials with biocompatible and antimicrobial activity.

Parkatzidis, K.; Chatzinikolaidou, M.; Koufakis, E.; Kaliva, M.; Farsari, M.; Vamvakaki, M.

Polymer Chemistry, 11, 4078-4083

3D holographic light shaping for advanced multiphoton polymerization.

Manousidaki, M.; Papazoglou, D. G.; Farsari, M.; Tzortzakis, S.

Optics Letters, 45, 85-88

Laser-made 3D Auxetic Metamaterial Scaffolds for Tissue Engineering Applications.

Flamourakis, G.; Spanos, I.; Vangelatos, Z.; Manganas, P.; Papadimitriou, L.; Grigoropoulos, C.; Ranella, A.; Farsari, M.

Macromolecular Materials and Engineering, 305.

2019

Intertwined microlattices greatly enhance the performance of mechanical metamaterials.

Vangelatos, Z., Melissinaki, V., Farsari, M., Komvopoulos, K., Grigoropoulos, C.

Mathematics and Mechanics of Solids, 24(8)

Quantum dot based 3D printed woodpile photonic crystals tuned for the visible

Sakellari, I., Kabouraki, E., Karanikolopoulos, D., Droulias, S., Farsari, M., Loukakos, P., Vamvakaki, M., Gray, D

Nanoscale Advances, (9)

Long-scale multiphoton polymerization voxel growth investigation using engineered Bessel beams.

Manousidaki, M., Papazoglou, D. G., Farsari, M., & Tzortzakis, S.

Optical Materials Express, 9(7)

Advances in pantographic structures: design, manufacturing, models, experiments and image analyses.

dell’Isola, F., et al

Continuum Mechanics and Thermodynamics

Force–displacement relationship in micro-metric pantographs: Experiments and numerical simulations.

dell’Isola, F., Turco, E., Misra, A., Vangelatos, Z., Grigoropoulos, C., Melissinaki, V., & Farsari, M.

Comptes Rendus Mécanique, 347(5)

Additive manufacturing: applications and directions in photonics and optoelectronics.

Camposeo, A., Persano, L., Farsari, M., Pisignano, D.

Advanced optical materials, 7(1)

2018

3D laser nano-printing on fibre paves the way for super-focusing of multimode laser radiation.

Sokolovskii, G. S., Melissinaki, V., Fedorova, K. A., Dudelev, V. V., Losev, S. N., Bougrov, V. E., Sibbett, W., Farsari, M., Rafailov, E. U.

Scientific reports, 8(1)

Initiator-Free, Multiphoton Polymerization of Gelatin Methacrylamide

Parkatzidis, K., Kabouraki, E., Selimis, A., Kaliva, M., Ranella, A., Farsari, M., Vamvakaki, M.

Macromolecular Materials and Engineering, 303(12)

Guided Assembly of Block Copolymers in Three-Dimensional Woodpile Scaffolds.

Choi, J., Koo, S., Sakellari, I., Kim, H., Su, Z., Carter, K. R., Farsari, M., Grigoropoulos, C. P., Russell, T. P.

ACS applied materials & interfaces, 10(49)

The role of intramolecular charge transfer and symmetry breaking in the photophysics of pyrrolo[3,2-b]pyrrole-dione

Tasior, M., Hassanein, K., Mazur, L. M., Sakellari, I., Gray, D., Farsari, M., Samoć, M., Santoro, F., Ventura, B., Gryko, D. T.

Physical Chemistry Chemical Physics, 20(34)

3D magnetic microstructures.

Spanos, I., Selimis, A., Farsari, M.

Procedia CIRP, 74

Ring-Airy beams at the wavelength limit.

Manousidaki, M., Fedorov, V. Y., Papazoglou, D. G., Farsari, M., Tzortzakis, S.

Optics Letters, 43

Beyond 100 nm resolution in 3D laser lithography — Post processing solutions

Seniutinas, G., Weber, A., Padeste, C., Sakellari, I., Farsari, M., David, C.

Microelectronic Engineering 191, 25-31

2017

3D Chiral Plasmonic Metamaterials Fabricated by Direct Laser Writing: The Twisted Omega Particle

Sakellari, I., Yin, X., Nesterov, M. L., Terzaki, K., Xomalis, A., & Farsari, M.

Advanced Optical Materials, 5(16)

3D patterning of ZnO nanostructures.

Giakoumaki, A. N., Kenanakis, G., Klini, A., Androulidaki, M., Viskadourakis, Z., Farsari, M., & Selimis, A.

Materials Today, 20(7)

3D micro-structured arrays of ZnΟ nanorods

Giakoumaki, A. N., Kenanakis, G., Klini, A., Androulidaki, M., Viskadourakis, Z., Farsari, M., & Selimis, A.

Scientific Reports, 7

Recombinant human bone morphogenetic protein 2 (rhBMP-2) immobilized on laser-fabricated 3D scaffolds enhance osteogenesis.

Colloids and Surfaces B: Biointerfaces, 149

Chatzinikolaidou, M., Pontikoglou, C., Terzaki, K., Kaliva, M., Kalyva, A., Papadaki, E., Vamvakaki, M., Farsari, M.

2016

Fiber endface Fabry–Perot microsensor with distinct response to vapors of different chlorinated organic solvents.

Melissinaki, V., Konidakis, I., Farsari, M., & Pissadakis, S.

IEEE Sensors Journal, 16, 7094–7100.

Abruptly autofocusing beams enable advanced multiscale photo-polymerization.

Manousidaki, M., Papazoglou, D. G., Farsari, M., & Tzortzakis, S.

Optica, 3(5), 525–530

3D plasmonic crystal metamaterials for ultra-sensitive biosensing.

Aristov, A. I., Manousidaki, M., Danilov, A., Terzaki, K., Fotakis, C., Farsari, M., & Kabashin, A. V.

Scientific Reports, 6, 25380

π-Expanded 1,3-diketones – synthesis, optical properties and application in two-photon polymerization

Nazir, R., Thorsted, B., Balčiūnas, E., Mazur, L., Deperasińska, I., Samoć, M., Brewer, J., Farsari, M., & Gryko, D. T.

Journal of Materials Chemistry C, 4, 167–177

2015

Advances in Functional Assemblies for Regenerative Medicine.

Palma, M., Hardy, J. G., Tadayyon, G., Farsari, M., Wind, S. J., & Biggs, M. J.

Advanced Healthcare Materials, 4, 2500–2519.

Burr-like, laser-made 3D microscaffolds for tissue spheroid encagement.

Danilevicius, P., Rezende, R. A., Pereira, F. D. A. S., Selimis, A., Kasyanov, V., Noritomi, P. Y., da Silva, J. V. L., Chatzinikolaidou, M., Farsari, M., & Mironov, V.

Biointerphases, 10(2), 021011.

Donor–Acceptor Type Thioxanthones: Synthesis, Optical Properties, and Two-Photon Induced Polymerization.

Nazir, R., Balčiūnas, E., Buczyńska, D., Bourquard, F., Kowalska, D., Gray, D., Maćkowski, S., Farsari, M., & Gryko, D. T.

Macromolecules, 48(8), 2466–2472.

Three-Dimensional Infrared Metamaterial with Asymmetric Transmission.

Kenanakis, G., Xomalis, A., Selimis, A., Vamvakaki, M., Farsari, M., Kafesaki, M., Soukoulis, C. M., & Economou, E. N.

ACS Photonics, 2(2), 287–294.

A Fiber-Endface, Fabry–Perot Vapor Microsensor Fabricated by Multiphoton Polymerization.

Melissinaki, V., Farsari, M., & Pissadakis, S.

IEEE Journal of Selected Topics in Quantum Electronics.

Adhesion and growth of human bone marrow mesenchymal stem cells on precise-geometry 3D organic–inorganic composite scaffolds for bone repair.

Chatzinikolaidou, M., Rekstyte, S., Danilevicius, P., Pontikoglou, C., Papadaki, H., Farsari, M., & Vamvakaki, M.

Materials Science and Engineering: C, 48, 301–309.

Direct laser writing: Principles and materials for scaffold 3D printing.

Selimis, A., Mironov, V., & Farsari, M.

Microelectronic Engineering, 132, 83–89.

The effect of porosity on cell ingrowth into accurately defined, laser-made, polylactide-based 3D scaffolds

Danilevicius, P., Georgiadi, L., Pateman, C. J., Claeyssens, F., Chatzinikolaidou, M., & Farsari, M.

Applied Surface Science, 336, 2–10.

π-Expanded α,β-Unsaturated Ketones: Synthesis, Optical Properties, and Two-Photon-Induced Polymerization

Nazir, R., Bourquard, F., Balčiūnas, E., Smoleń, S., Gray, D., Tkachenko, N. V., Farsari, M., & Gryko, D. T.

ChemPhysChem, 16(3), 485–690

2014

Micro/nano lithography: High-resolution 3D prototyping.

Farsari, M. & Selimis, A.

SPIE Newsroom

π-Expanded Ketocoumarins as Efficient, Biocompatible Initiators for Two-Photon-Induced Polymerization.

Nazir, R., Danilevicius, P., Ciuciu, A. I., Chatzinikolaidou, M., Gray, D., Flamigni, L., Farsari, M., & Gryko, D. T.

Chemistry of Materials, 26, 3175–3184.

Design, fabrication and computational characterization of a 3D micro-valve built by multi-photon polymerization.

Galanopoulos, S., Chatzidai, N., Melissinaki, V., Selimis, A., Schizas, C., Farsari, M., & Karalekas, D.

Micromachines, 5(3), 505-514

Superfocusing of high-M2 semiconductor laser beams: experimental demonstration.

Sokolovskii, G. S., Melissinaki, V., Dudelev, V. V., Losev, S. N., Soboleva, K. K., Kolykhalova, E. D., Deryagin, A. G., Kuchinskii, V. I., Viktorov, E. A., Farsari, M., Sibbett, W., & Rafailov, E. U.

Proceedings of SPIE, 9134.

Improvement of the Fabrication Accuracy of Fiber Tip Microoptical Components via Mode Field Expansion.

Žukauskas, A., Melissinaki, V., Kaškelyte, D., Farsari, M., & Malinauskas, M.

Journal of Laser Micro/Nanoengineering, 9(1)

2013

Pre-osteoblastic cell response on three-dimensional, organic-inorganic hybrid material scaffolds for bone tissue engineering.

Terzaki, K., Kissamitaki, M., Skarmoutsou, A., Fotakis, C., Charitidis, C. A., Farsari, M., Vamvakaki, M., & Chatzinikolaidou, M.

Journal of Biomedical Materials Research Part A, 101A(8), 2283–2294.

Mineralized self-assembled peptides on 3D laser-made scaffolds: a new route toward ‘scaffold on scaffold’ hard tissue engineering.

Terzaki, K., Kalloudi, E., Mossou, E., Mitchell, E. P., Forsyth, V. T., Rosseeva, E., Simon, P., Vamvakaki, M., Chatzinikolaidou, M., Mitraki, A., & Farsari, M.

Biofabrication, 5(4), 045002.

Nanomechanical properties of hybrid coatings for bone tissue engineering.

Skarmoutsou, A., Lolas, G., Charitidis, C. A., Chatzinikolaidou, M., Vamvakaki, M., & Farsari, M.

Journal of the Mechanical Behavior of Biomedical Materials, 25, 48–62

Push–Pull Acylo-Phosphine Oxides for Two-Photon-Induced Polymerization.

Nazir, R., Danilevicius, P., Gray, D., Farsari, M., & Gryko, D. T.

Macromolecules, 46(18), 7239–7244.

Ultrafast laser nanostructuring of photopolymers: A decade of advances.

Malinauskas, M., Farsari, M., Piskarskas, A., & Juodkazis, S.

Physics Reports, 533(1), 1–31.

Redox Multiphoton Polymerization for 3D Nanofabrication.

Kabouraki, E., Giakoumaki, A. N., Danilevicius, P., Gray, D., Vamvakaki, M., & Farsari, M.

Nano Letters, 13(8)

2012

Three-Dimensional Metallic Photonic Crystals with Optical Bandgaps.

Vasilantonakis, N., Terzaki, K., Sakellari, I., Purlys, V., Gray, D., Soukoulis, C. M., Vamvakaki, M., Kafesaki, M., & Farsari, M.

Advanced Materials, 24(8), 1101–1105.

Diffusion-Assisted High-Resolution Direct Femtosecond Laser Writing.

Sakellari, I., Kabouraki, E., Gray, D., Purlys, V., Fotakis, C., Pikulin, A., Bityurin, N., Vamvakaki, M., & Farsari, M.

ACS Nano, 6(3), 2302–2311.

Graphene-doped photo-patternable ionogels: tuning of conductivity and mechanical stability of 3D microstructures.

Oubaha, M., Kavanagh, A., Gorin, A., Bickauskaitė, G., Byrne, R., Farsari, M., Winfield, R., Diamond, D., McDonagh, C., & Copperwhite, R.

Journal of Materials Chemistry, 22(21), 10552–10559

Single-pulse multiphoton fabrication of high aspect ratio structures with sub-micron features using vortex beams.

Mills, B., Kundys, D., Farsari, M., Mailis, S., & Eason, R. W.

Applied Physics A: Materials Science & Processing, 108(3), 651–655.

3D microoptical elements formed in a photostructurable germanium silicate by direct laser writing.

Malinauskas, M., Žukauskas, A., Purlys, V., Gaidukevičiūtė, A., Balevičius, Z., Piskarskas, A., Fotakis, C., Pissadakis, S., Gray, D., Gadonas, R., Vamvakaki, M., & Farsari, M.

Optics and Lasers in Engineering, 50(12), 1785–1788.

2011

Pico- and femtosecond laser-induced crosslinking of protein microstructures: evaluation of processability and bioactivity.

Turunen, S., Käpylä, E., Terzaki, K., Viitanen, J., Fotakis, C., Kellomäki, M., & Farsari, M.

Biofabrication, 3(4), 045002

3D conducting nanostructures fabricated using direct laser writing.

Terzaki, K., Vasilantonakis, N., Gaidukeviciute, A., Reinhardt, C., Fotakis, C., Vamvakaki, M., & Farsari, M.

Optical Materials Express, 1(4), 586–597.

Direct laser writing of 3D scaffolds for neural tissue engineering applications.

Melissinaki, V., Gill, A. A., Ortega, I., Vamvakaki, M., Ranella, A., Haycock, J. W., Fotakis, C., Farsari, M., & Claeyssens, F.

Biofabrication, 3(4), 045005.

2010

On the design and fabrication by two-photon polymerization of a readily assembled micro-valve.

Schizas, C., Melissinaki, V., Gaidukeviciute, A., Reinhardt, C., Ohrt, C., Dedoussis, V., Chichkov, B. N., Fotakis, C., Farsari, M., & Karalekas, D.

Int J Adv Manuf Technol 48, 435–441

Two-photon polymerization of titanium-containing sol–gel composites for three-dimensional structure fabrication.

Sakellari, I., Gaidukeviciute, A., Giakoumaki, A., Gray, D., Fotakis, C., Farsari, M., Vamvakaki, M., Reinhardt, C., Ovsianikov, A., & Chichkov, B. N.

Appl. Phys. A 100, 359–364

Femtosecond laser polymerization of hybrid/integrated micro-optical elements and their characterization.

Malinauskas, M., Žukauskas, A., Purlys, V., Belazaras, K., Momot, A., Paipulas, D., Gadonas, R., Piskarskas, A., Gilbergs, H., Gaidukevičiūtė, A., Sakellari, I., Farsari, M., & Juodkazis, S.

Journal of Optics, 12(12), 124010.

Multiphoton polymerization of hybrid materials.

Farsari, M., Vamvakaki, M., & Chichkov, B. N.

Journal of Optics, 12(12)

2009

Three-dimensional biodegradable structures fabricated by two-photon polymerization.

Claeyssens, F., Hasan, E. A., Gaidukeviciute, A., Achilleos, D. S., Ranella, A., Reinhardt, C., Ovsianikov, A., Xiao, S., Fotakis, C., Vamvakaki, M., Chichkov, B. N., & Farsari, M.

Langmuir, 25(5), 3219–3223.

2D and 3D biotin patterning by ultrafast lasers.

Dinca, V., Catherine, J., Mourka, A., Georgiou, S., Farsari, M., & Fotakis, C.

International Journal of Nanotechnology, 6(1–2), 88–98.

Two-photon fabrication.

Farsari, M., & Chichkov, B. N.

Nature Photonics, 3(8), 450–452.

Shrinkage of microstructures produced by two-photon polymerization of Zr-based hybrid photosensitive materials.

Ovsianikov, A., Xiao, S. Z., Farsari, M., Vamvakaki, M., Fotakis, C., & Chichkov, B. N.

Optics Express, 17(4), 2143–2148.

Laser-based micro/nanoengineering for biological applications.

Stratakis, E., Ranella, A., Farsari, M., & Fotakis, C.

Progress in Quantum Electronics, 33(5), 127–163.

2008

Reversibly Photo-Responsive Polymer Surfaces for Controlled Wettability.

Anastasiadis, S. H., Lygeraki, M. I., Athanassiou, A., Farsari, M., & Pisignano, D.

Journal of Adhesion Science and Technology, 22(15), 1853–1868.

Patterning parameters for biomolecules microarrays constructed with nanosecond and femtosecond UV lasers.

Dinca, V., Farsari, M., Kafetzopoulos, D., Popescu, A., Dinescu, M., & Fotakis, C.

Thin Solid Films, 516(18), 6504–6511.

Directed three-dimensional patterning of self-assembled peptide fibrils.

Dinca, V., Kasotakis, E., Catherine, J., Mourka, A., Ranella, A., Ovsianikov, A., Chichkov, B. N., Farsari, M., Mitraki, A., & Fotakis, C.

Nano Letters, 8(2), 538–543.

Quantification of the activity of biomolecules in microarrays obtained by direct laser transfer.

Dinca, V., Ranella, A., Farsari, M., Kafetzopoulos, D., Dinescu, M., Popescu, A., & Fotakis, C.

Biomedical Microdevices, 10(5), 719–725.

Fabrication of three-dimensional photonic crystal structures containing an active nonlinear optical chromophore.

Farsari, M., Ovsianikov, A., Vamvakaki, M., Sakellari, I., Gray, D., Chichkov, B. N., & Fotakis, C.

Applied Physics A: Materials Science & Processing, 93(1), 11–15.

Ultra-low shrinkage hybrid photosensitive material for two-photon polymerization microfabrication.

Ovsianikov, A., Viertl, J., Chichkov, B., Oubaha, M., MacCraith, B., Sakellari, I., Giakoumaki, A., Gray, D., Vamvakaki, M., Farsari, M., & Fotakis, C.

ACS Nano, 2(11), 2257–2262.

2007

Development of peptide-based patterns by laser transfer.

Dinca, V., Kasotakis, E., Catherine, J., Mourka, A., Mitraki, A., Popescu, A., Dinescu, M., Farsari, M., & Fotakis, C.

Applied Surface Science, 254(4), 1160–1163

Parameters optimization for biological molecules patterning using 248-nm ultrafast lasers.

Dinca, V., Ranella, A., Popescu, A., Dinescu, M., Farsari, M., & Fotakis, C.

Applied Surface Science, 254(4), 1164–1168.

Three-dimensional biomolecule patterning.

Farsari, M., Filippidis, G., Drakakis, T. S., Sambani, K., Georgiou, S., Papadakis, G., Gizeli, E., & Fotakis, C.

Applied Surface Science, 253(19), 8115–8118.

2006

Combination of microstructuring and laser-light irradiation for the reversible wettability of photosensitised polymer surfaces.

Athanassiou, A., Varda, M., Mele, E., Lygeraki, M. I., Pisignano, D., Farsari, M., Fotakis, C., & Cingolani, R., Anastasiadis, S. H.

Applied Physics A: Materials Science & Processing, 83(3), 351–356.

Construction of three-dimensional biomolecule structures employing femtosecond lasers.

Drakakis, T. S., Papadakis, G., Sambani, K., Filippidis, G., Georgiou, S., Gizeli, E., Fotakis, C., & Farsari, M.

Applied Physics Letters, 89(14), 144108.

Two-photon polymerization of an Eosin Y-sensitized acrylate composite.

Farsari, M., Filippidis, G., Sambani, K., Drakakis, T. S., & Fotakis, C.

Journal of Photochemistry and Photobiology A: Chemistry, 181(1), 132–135.

Smart photochromic gratings with switchable wettability realized by green-light interferometry.

Mele, E., Pisignano, D., Varda, M., Farsari, M., Filippidis, G., Fotakis, C., Athanassiou, A., & Cingolani, R.

Applied Physics Letters, 88(20), 203124.

Laser micro machining of 3C–SiC single crystals.

Zoppel, S., Farsari, M., Merz, R., Zehetner, J., Stangl, G., Reider, G. A., & Fotakis, C.

Microelectronic Engineering, 83(4–9), 1400–1402.

2005

Fabrication of three-dimensional structures by three-photon polymerization.

Farsari, M., Filippidis, G., & Fotakis, C.

Optics Letters, 30(23), 3180–3182.

Efficient femtosecond laser micromachining of bulk 3C-SiC.

Farsari, M., Filippidis, G., Zoppel, S., Reider, G. A., & Fotakis, C.

Journal of Micromechanics and Microengineering, 15(9), 1786–1789.

Elimination of cracking during UV laser ablation of SrTiO3 single crystals by employing a femtosecond laser.

Zoppel, S., Gray, D., Farsari, M., Merz, R., Reider, G. A., & Fotakis, C.

Applied Surface Science, 252(5), 1910–1914.

2000

Fully complex optical modulation with an analogue ferroelectric liquid crystal spatial light modulator.

Birch, P., Young, R., Chatwin, C., Farsari, M., Budgett, D., & Richardson, J.

Optics Communications, 175(4–6), 347–352.

A comparison of the iterative Fourier transform method and evolutionary algorithms for the design of diffractive optical elements.

Birch, P., Young, R., Farsari, M., Chatwin, C., & Budgett, D.

Optics and Lasers in Engineering, 33(6), 439–448.

A novel high-accuracy microstereolithography method employing an adaptive electro-optic mask.

Farsari, M., Claret-Tournier, F., Huang, S., Chatwin, C. R., Budgett, D. M., Birch, P. M., Young, R. C. D., & Richardson, J. D.

Journal of Materials Processing Technology, 107(1–3), 167–172.

1997

Structural Studies of a Series of Organic Non-Linear Optical Materials.

Cole, J. C., Cole, J. M., Cross, G. H., Farsari, M., Howard, J. A. K., & Szablewski, M.

Acta Crystallographica Section B: Structural Science, 53, 812–821.