Author :
Fantini, Andrea ; Goux, L. ; Clima, S. ; Degraeve, Robin ; Redolfi, A. ; Adelmann, C. ; Polimeni, Giuseppe ; Chen, Y.Y. ; Komura, M. ; Belmonte, A. ; Wouters, D.J. ; Jurczak, Malgorzata
Abstract :
We propose for the first time a systematic evaluation of the performance and underlying trade-off of the use of ternary Hf1-xAlxOy oxides for RRAM application. We show that intermixing HfO2 and Al2O3 deposition cycles in a standard ALD process not only prevents crystallization of active layer but also significantly improve intrinsic retention and disturb-immunity properties at the expense of a small increase of programming voltage. We attribute this beneficial effect to the reduced Vo diffusivity caused by stronger Al-O bonds as suggested by ab-initio simulations.
Keywords :
ab initio calculations; aluminium compounds; atomic layer deposition; dielectric materials; hafnium compounds; random-access storage; Hf1-xAlxOy; ab-initio simulations; active layer; amorphous dielectrics; deposition cycles; diffusivity; disturb-immunity properties; high-performance RRAM applications; intrinsic retention; programming voltage; standard ALD process; ternary oxides; Aluminum oxide; Crystallization; Hafnium compounds; Resistance; Switches; Tin;
