RESEARCH INTERESTS

microcystins

ABOUT/BIOGRAPHY

Ioannis Raptis started studying chemical engineering at the National Technical University of Athens (NTUA) in 2016. He completed his internship in MONOLITHOS EPE and his research focus was the study of the corrosion of bipolar plates, the recycling of metals like Pt,Pd from electrolyte membranes and the operation of electrolyzers and fuel cells. At present, in order to complete his diploma thesis he is cooperating with the NCSR “Demokritos” on the development of a method which can detect the total (bound and unbound) microcystins in water and environmental samples.

PUBLICATIONS

Nika, A., Oikonomou, P., Manouras, T., Argitis, P., Vamvakaki, M., Sanopoulou, M., Raptis, I. and Chatzichristidi, M., Reversible chemocapacitor system based on PDMAEMA polymers for fast sensing of VOCs mixtures Microelectronic Engineering, Volume 227, Article Number: 111304, 2020 [doi]

Raptis, Ioannis and Glezos, Nikos, Electron Beam Lithography Simulation for Subquartermicron and High Density Patterns Simulation of Semiconductor Processes and Devices 2001: SISPAD 01, Springer Science & Business Media, Pages: 404, 2012 [doi]

Argitis, P., Niakoula, D., Douvas, A.M., Gogolides, E., Raptis, I., Vidali, V.P. and Couladouros, E.A., Materials for lithography in the nanoscale International Journal of Nanotechnology, Volume 6, Pages: 71-87, 2009 [doi]

Chatzichristidi, M., Petrou, P.S., Douvas, A.M., Diakoumakos, C.D., Raptis, I., Misiakos, K., Kakabakos, S.S. and Argitis, P., Photolithographic process based on high contrast acrylate photoresist for multi-protein patterning Volume 950, Pages: 205-210, 2006 [doi]

Vasilopoulou, M., Raptis, I., Argitis, P., Aspiotis, I. and Davazoglou, D., Polymeric electrolytes for WO3-based all solid-state electrochromic displays Microelectronic Engineering, Volume 83, Pages: 1414-1417, 2006 [doi]

Niakoula, D., Raptis, I., Goustouridis, D. and Argitis, P., Glass transition temperature monitoring in bilayer and patterned photoresist films Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers, Volume 43, Pages: 5247-5248, 2004 [doi]

Niakoula, D., Raptis, I., Bellas, V. and Argitis, P., Glass transition temperature studies in thin photoresist films with an interferometric method Volume 5039 I, Pages: 357-365, 2003 [doi]

Chatzichristidi, M., Raptis, I., Diakoumakos, C.D., Glezos, N., Argitis, P. and Sanopoulou, M., Strippable aqueous base developable negative photoresist for high aspect ratio micromachining Microelectronic Engineering, Volume 61-62, Pages: 729-735, 2002 [doi]

Diakoumakos, C.D., Douvas, A., Raptis, I., Kakabakos, S., Dimotikalli, D., Terzoudi, G. and Argitis, P., Dilute aqueous base developable resists for environmentally friendly and biocompatible processes Microelectronic Engineering, Volume 61-62, Pages: 819-827, 2002 [doi]

Diakoumakos, C.D., Raptis, I., Tserepi, A. and Argitis, P., Negative (meth)acrylate resist materials based on novel crosslinking chemistry Microelectronic Engineering, Volume 57-58, Pages: 539-545, 2001 [doi]

Diakoumakos, C.D., Raptis, I., Tserepi, A. and Argitis, P., Free-radical synthesis of narrow polydispersed 2-hydroxyethyl methacrylate-based tetrapolymers for dilute aqueous base developable negative photoresists Polymer, Volume 43, Pages: 1103-1113, 2001 [doi]

Raptis, I., Chatzichristidi, M., Diakoumakos, C.D., Douvas, A., Niakoula, D. and Argitis, P., Application of a novel aqueous base developable resist in micromachining Journal of Photopolymer Science and Technology, Volume 14, Pages: 445-448, 2001 [doi]

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