Title :
MOS Characteristics of synthesized HfAlON-HfO2 stack using AlN-HfO2
Author :
Park, Chang Seo ; Cho, Byung Jin ; Kwong, Dim-Lee
Author_Institution :
Dept. of Electr. & Comput. Eng., Nat. Univ. of Singapore, Singapore
Abstract :
We demonstrate a top-surface aluminized and nitrided HfO2 gate dielectric using a synthesis of ultrathin aluminum nitride (AlN) and HfO2. The reaction of AlN with HfO2 through a subsequent high-temperature annealing incorporates Al and N into an HfO2 layer, which results in a synthesis of HfAlON near the top surface of HfO2, forming an HfAlON-HfO2 stack structure. This approach suppresses interfacial layer growth and improves thermal stability of the dielectric, resulting in significant improvement in leakage current. It also shows no adverse effects caused by N and Al incorporation at the bottom interface.
Keywords :
MOSFET; aluminium compounds; annealing; dielectric materials; dielectric thin films; hafnium compounds; insulating thin films; leakage currents; AlN-HfO2; HfAlON-HfO2; HfAlON-HfO2 stack structure; MOS characteristics; bottom interface; dielectric thermal stability; gate dielectric; high-temperature annealing; interfacial layer growth; leakage current; ultrathin aluminum nitride; Crystallization; Degradation; Dielectric substrates; Grain boundaries; Hafnium oxide; Leakage current; MOCVD; Rapid thermal annealing; Silicon; Thermal stability; Aluminum nitride; CMOS; HfO$_2$; high- $kappa$;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.834246
