| Literature DB >> 28152310 |
Kechao Tang, Felix Roberto Palumbo1,2, Liangliang Zhang, Ravi Droopad3, Paul C McIntyre.
Abstract
We investigate the effects of pre- and postatomic layer deposition (ALD) defect passivation with hydrogen on the trap density and reliability of Al2O3/InGaAs gate stacks. Reliability is characterized by capacitance-voltage hysteresis measurements on samples prepared using different fabrication procedures and having different initial trap densities. Despite its beneficial capability to passivate both interface and border traps, a final forming gas (H2/N2) anneal (FGA) step is correlated with a significant hysteresis. This appears to be caused by hydrogen depassivation of defects in the gate stack under bias stress, supported by the observed bias stress-induced increase of interface trap density, and strong hydrogen isotope effects on the measured hysteresis. On the other hand, intentional air exposure of the InGaAs surface prior to Al2O3 ALD increases the initial interface trap density (Dit) but considerably lowers the hysteresis.Entities:
Keywords: Al2O3; InGaAs; MOSCAP; border traps; hydrogen depassivation; interface traps; reliability
Year: 2017 PMID: 28152310 DOI: 10.1021/acsami.6b16232
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229