FP7-PEOPLE-2012-IAPP Marie Curie Industry-Academia Partnerships and Pathways (IAPP)



  1. "Laser Direct Writing of 40 GHz RF Components on Flexible Substrates", F. Zacharatos, N. Iliadis, J. Kanakis, P. Bakopoulos, H. Avramopoulos and I. Zergioti, Journal of Optics and Laser Technology 79, 108–114 (2016)

  2. "Single step high-speed printing of continuous silver lines bylaser-induced forward transfer", D. Puerto, E. Biver, A.-P. Alloncle, Ph. Delaporte, Appl. Surf. Sci. In Press (2015)

  3. "Laser Direct Write micro-fabrication of large area electronics on flexible substrates", F. Zacharatos, M. Makrygianni, R. Geremia, E. Biver, D. Karnakis, S. Leyder, D. Puerto, P. Delaporte, I. Zergioti, Appl. Surf. Sci. In Press (2015)


  4. Makrygianni, M., Papazoglou, S. and Zergioti, I. 2015. Direct Laser Printing for Organic Electronics. Wiley Encyclopedia of Electrical and Electronics Engineering. 1–16.

  5. "Selective laser sintering of Ag NPs ink for applications in flexible electronics", I. Theodorakos, F. Zacharatos, R. Geremia, D. Karnakis, I. Zergioti, Appl. Surf. Sci. 336, 157–162 (2015).

  6. Ph. Delaporte, I. Zergioti, D. Karnakis, Chapter 12: Laser Processing in Flexible Organic Electronics in the Handbook of flexible organic electronics, materials, manufacturing and applications, S. Logothetidis (ed.), Woodhead Publishing, (2014)

  7. “A polyphenol biosensor realized by laser printing technology”, E. Touloupakis, M. Chatzipetrou, C. Boutopoulos, A. Gkouzou, I. Zergioti, Sensors and Actuators B: Chemical 193, 301–305 (2014).