Tailoring IGZO Composition for Enhanced Fully Solution-Based Thin Film Transistors

Solution-processed metal oxides have been investigated as an alternative to vacuum-based oxides to implement low-cost, high-performance electronic devices on flexible transparent substrates. However, their electrical properties need to be enhanced to apply at industrial scale. Amorphous indium-gallium-zinc oxide (a-IGZO) is the most-used transparent semiconductor metal oxide as an active channel layer in thin-film transistors (TFTs), due to its superior electrical properties. The present work evaluates the influence of composition, thickness and ageing on the electrical properties of solution a-IGZO TFTs, using solution combustion synthesis method, with urea as fuel. After optimizing the semiconductor properties, low-voltage TFTs were obtained by implementing a back-surface passivated 3-layer In:Ga:Zn 3:1:1 with a solution-processed high-к dielectric; AlO(x). The devices show saturation mobility of 3.2 cm(2) V(−1) s(−1), I(On)/I(Off) of 10(6), SS of 73 mV dec(−1) and V(On) of 0.18 V, thus demonstrating promising features for low-cost circuit applications.