Effect of deposition temperature on the characteristics of hafnium oxide films deposited by metalorganic chemical vapor deposition using amide precursor

Abstract

Hafnium oxide films were deposited on silicon substrates at deposition temperatures ranging from 190 to 500 °C by metalorganic chemical vapor deposition using an amide precursor, Hf[N(C2H5)2]4, and O2 as source materials. The effect of deposition temperature on the deposition characteristics and electrical properties of the resultant films were investigated. Reaction-limited deposition of hafnium oxide films occurred at deposition temperatures under 380 °C. Concentration of residues, such as carbon, nitrogen, and hydrogen, monotonously decreased with increasing deposition temperature, with nitrogen being the most thermally susceptible. However, surface roughness reached a minimum value at 400 °C. Amorphous films were obtained for deposition temperatures up to 450 °C, but obviously became crystallized at 500 °C. Accumulation capacitance increased with increasing deposition temperature but saturated above 400 °C. Moreover, postdeposition annealing at 800 °C caused no obvious degradation in the electrical properties of the film deposited at 400 °C.