D.N. Pagonis, I. Matsoukas, A. Pilatis, G. Kaltsas, “Design and Fabrication of a novel monolithic 3D printed air flow sensor”, MNE-EUROSENSORS 2022, Leuven, Belgium, 19-23 September, 2022.
D.N. Pagonis, V. Benaki, G. Kaltsas, A. Pagonis, “Design of a Mass Air Flow Sensor Employing Additive Manufacturing and Standard Airfoil Geometry”, Appl. Sci. 11, Marine science and Engineering section, 11579 (2021).
D.N. Pagonis, A. Moschos, G. Kaltsas, “A PCB based engine air intake sensor – Application to a typical low power engine”, Procedia Engineering, 168 59 – 62 (2016).
D.N. Pagonis, G. Livanos, G. Theotokatos, S. Peppa, N. Themelis, “Open-type ferry safety system design for using LNG fuel”, Journal of Marine Science and Application 15 (4), 405-425 (2016).
D.N. Pagonis, G. Theotokatos, G. Livanos, “Accurate instantaneous engine speed recording by employing an optical measurement system- Application to a typical low power industrial engine”, SAE 2013 World Congress & Exhibition, Detroit, Michigan, USA, SAE Technical Papers 2, doi:10.4271/2013-01-0304 (2013).
D.N. Pagonis, A. Petropoulos, G. Kaltsas, A. G. Nassiopoulou and A. Tserepi, “Novel microfluidic flow sensor based on a microchannel capped by porous silicon”, phys. stat. sol. (a) 204, 5, 1474– 1479 (2007).
“Low Power Silicon Thermal Flow Sensors and Microfluidic Devices Using Porous Silicon Sealed Air Cavity or Microchannels”, A. Nassiopoulou, G. Kaltsas, D. Pagonis, United States Patent US20080044939 (2003).
The current academic year teaches the following courses: