Title :
Improvement of interfacial layer reliability by incorporation of deuterium into HfAlOx formed by D2O-ALD
Author :
Torii, Kazuyoshi ; Kawahara, Takaaki ; Shiraishi, Kenji
Author_Institution :
Semicond. Leading Edge Technol. Inc., Ibaraki, Japan
Abstract :
Deuterium was incorporated into the HfAlOx /SiON gate dielectric by the use of heavy water (D2O) instead of H2O in the atomic layer deposition (ALD) process of HfAlOx. The HfAlOx formed by D2O-ALD acts as a deuterium reservoir, and the deuterium atoms are effectively incorporated into the SiON after full CMOS processing. It is clarified that the deuterium incorporation suppresses interfacial trap generation and interfacial SiON breakdown, while charge-trapping in the HfAlOx bulk traps is barely affected. The D2O-ALD process is useful for improving the interfacial layer reliability under gate negative stress; therefore it is not only effective for HfAlOx, but also for high-κ/SiO2(SiON) gate stacks with other high-κ materials such as HfO2 or HfSiON.
Keywords :
atomic layer deposition; deuterium; dielectric thin films; electric breakdown; electron traps; hafnium compounds; semiconductor-insulator boundaries; ALD process; CMOS processing; D2O-ALD; H2O; HfAlO-SiON; HfO2; TDDB; atomic layer deposition; charge trapping; deuterium atoms; deuterium reservoir; gate negative stress; gate stacks; heavy water; high-K materials; interfacial breakdown; interfacial layer reliability; interfacial trap generation; time-dependent dielectric breakdown; Annealing; Atomic layer deposition; CMOS process; Deuterium; Dielectric breakdown; Dielectric materials; FETs; Hafnium oxide; Materials reliability; Stress; Atomic layer deposition (ALD); charge trapping; deuterium; high-; interfacial layer; time-dependent dielectric breakdown (TDDB);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2005.855416
