Items where Author is "Patsalas, P."

KALFAGIANNIS, N., SIOZIOS, A., BELLAS, D.V., TOLIOPOULOS, D., BOWEN, L., PLIATSIKAS, N., CRANTON, W.M., KOSMIDIS, C., KOUTSOGEORGIS, D.C., LIDORIKIS, E. and PATSALAS, P. (2016). Selective modification of nanoparticle arrays by laser-induced self assembly (MONA-LISA): putting control into bottom-up plasmonic nanostructuring. Nanoscale, 8 (15), 8236-8244. [Article]

SIOZIOS, A., KALFAGIANNIS, N., BELLAS, D.V., BAZIOTI, C., DIMITRAKOPULOS, G.P., VOURLIAS, G., CRANTON, W. N., LIDORIKIS, E., KOUTSOGEORGIS, D. C. and PATSALAS, P. (2015). Sub-surface laser nanostructuring in stratified metal/dielectric media: a versatile platform towards flexible, durable and large-scale plasmonic writing. Nanotechnology, 26 (15), p. 155301. [Article]

SIOZIOS, A., KOUTSOGEORGIS, D.C., LIDORIKIS, E., DIMITRAKOPULOS, G.P., PLIATSIKAS, N., VOURLIAS, G., KEHAGIAS, T., KOMNINOU, P., CRANTON, W., KOSMIDIS, C. and PATSALAS, P. (2015). Laser-matter interactions, phase changes and diffusion phenomena during laser annealing of plasmonic AlN:Ag templates and their applications in optical encoding. Journal of Physics D: Applied Physics, 48 (28), 1-13. [Article]

SIOZIOS, A., KALFAGIANNIS, N., BELLAS, D.V., BAZIOTI, C., DIMITRAKOPULOS, G.P., VOURLIAS, G., CRANTON, W.M., LIDORIKIS, E., KOUTSOGEORGIS, D.C. and PATSALAS, P. (2015). Sub-surface laser nanostructuring in stratified metal/dielectric media: A versatile platform towards flexible, durable and large-scale plasmonic writing. Nanotechnology, 26 (15), 1-10. [Article]

SIOZIOS, A., ZOUBOS, H., PLIATSIKAS, N., KOUTSOGEORGIS, D. C., VOURLIAS, G., PAVLIDOU, E., CRANTON, Wayne and PATSALAS, P. (2014). Growth and annealing strategies to control the microstructure of AlN:Ag nanocomposite films for plasmonic applications. Surface and coatings technology, 255, 28-36. [Article]

SIOZIOS, A., KOUTSOGEORGIS, D. C., LIDORIKIS, E., DIMITRAKOPULOS, G. P., KEHAGIAS, T., ZOUBOS, H., KOMNINOU, P., CRANTON, Wayne, KOSMIDIS, C. and PATSALAS, P. (2012). Optical encoding by plasmon-based patterning: hard and inorganic materials become photosensitive. Nano Letters, 12 (1), 259-263. [Article]