Improved charge carrier mobility in copper phthalocyanine based field effect transistors by insertion of a thin poorly conducting layer as gate insulator extension

Abstract: The charge carrier mobility is an important parameter that directly affects the performance of organic field‐effect transistors. We use copper phthalocyanine (CuPc)‐based transistors having crosslinked poly(vinyl alcohol) (cr‐PVA) as gate insulator to study the variation of the mobility in CuPc with the distance from the gate insulator interface. By measuring the mobility of the charge carriers flowing along the channel as a function of the minimum thickness of the effective channel near to the transistor sour… Show more

“…Treatments have recently successfully solved this problem in devices based on p-type channel semiconductors, poly(3-hexylthiophene-2,5-diyl) [17][18][19] and copper phthalocyanine. 20,21 As transistor size gets smaller, many undesirable effects come into play and nanometrically small defects and traps play a significant role, impairing device performance.…”

Poly(Vinyl Alcohol) Gate Dielectric Treated With Anionic Surfactant in C60 Fullerene-Based n-Channel Organic Field Effect Transistors

“…Treatments have recently successfully solved this problem in devices based on p-type channel semiconductors, poly(3-hexylthiophene-2,5-diyl) [17][18][19] and copper phthalocyanine. 20,21 As transistor size gets smaller, many undesirable effects come into play and nanometrically small defects and traps play a significant role, impairing device performance.…”

Poly(Vinyl Alcohol) Gate Dielectric Treated With Anionic Surfactant in C60 Fullerene-Based n-Channel Organic Field Effect Transistors

Poly(vinyl alcohol) gate dielectric in organic field-effect transistors

Soluble butyl substituted copper phthalocyanine as alternative hole-transporting material for solution processed perovskite solar cells