Subscribe & Pablic[a target="_blank" href="https://www.youtube.com/watch?v=Mq05A94GPmY" onMouseover="ddrivetip('ΠΕΡΙΣΣΟΤΕΡΑ','white', 100)";
onMouseout="hideddrivetip()"]_ΠΕΡΙΣΣΟΤΕΡΑ[/a]
[a href="automation.html" onMouseover="ddrivetip('Περισσότερα','', 100)";
onMouseout="hideddrivetip()"]ΠΕΡΙΣΣΟΤΕΡΑ[/a]
[a href="hlectrotexnia.html" onMouseover="ddrivetip('ΠΕΡΙΣΣΟΤΕΡΑ','', 100)";
onMouseout="hideddrivetip()"]ΠΕΡΙΣΣΟΤΕΡΑ[/a].
[a href="electronics.html" onMouseover="ddrivetip('Πλήρες Άρθρο','', 100)";
onMouseout="hideddrivetip()"]_ΠΕΡΙΣΣΟΤΕΡΑ[/a]
[a href="machines.html" onMouseover="ddrivetip('ΠΕΡΙΣΣΟΤΕΡΑ','', 100)";
onMouseout="hideddrivetip()"]ΠΕΡΙΣΣΟΤΕΡΑ[/a]
[a href="installations.html" onMouseover="ddrivetip('ΠΕΡΙΣΣΟΤΕΡΑ','', 100)";
onMouseout="hideddrivetip()"]_ΠΕΡΙΣΣΟΤΕΡΑ[/a]
Σημειώσεις
Εργασίες
Εφαρμογές
Συνέδρεια
- Bias stress effect in organic thin film transistors operating in irradiation-activated electrolyte
- Bias Stress Effect in Poly(3-hexylthiophene) Thin Film Transistors Operating in Irradiation-activated Electrolyte
- Poly(3-hexylthiophene)-based transistors using ionic liquid droplets as the gate dielectric
- Incorporation of Nanodroplets into Semiconducting Polymer Layers to Improve the Performance of Organic Electrolyte-Gated Transistors
- Performance comparison of organic transistors with different poly(3-hexyl thiophene) solvents