The paper reports that Hfrio dielectric is deposited by reactive co-sputtering of Hf and Ti targets in an Ar/O2 ambience, followed by an annealing in different gas ambiences of N2, NO and NH3 at 600℃ for 2 min. Capac...The paper reports that Hfrio dielectric is deposited by reactive co-sputtering of Hf and Ti targets in an Ar/O2 ambience, followed by an annealing in different gas ambiences of N2, NO and NH3 at 600℃ for 2 min. Capacitancevoltage and gate-leakage properties are characterized and compared. The results indicate that the NO-annealed sample exhibits the lowest interface-state and dielectric-charge densities and best device reliability. This is attributed to the fact that nitridation can create strong Si≡N bonds to passivate dangling Si bonds and replace strained Si-O bonds, thus the sample forms a hardened dielectric/Si interface with high reliability.展开更多
HfTiN film was deposited by co-reactive sputtering and then was annealed in dif-ferent gas ambients at temperature of 650 ℃ for 2 min to form HfTiON film. Capacitance-voltage and gate-leakage characteristics were inv...HfTiN film was deposited by co-reactive sputtering and then was annealed in dif-ferent gas ambients at temperature of 650 ℃ for 2 min to form HfTiON film. Capacitance-voltage and gate-leakage characteristics were investigated. The N2O-annealed sample exhibited small inter-face-state and oxide-charge densities, and enhanced reliability, which was attributed to the fact that nitridation could create strong Si≡N bonds to passivate dangling Si bonds and replaced strained Si-O bonds, thus forming a hardened dielectric/Si interface with high reliability. As a result, it is possible to prepare high-quality HfTiON gate dielectric of small-scaling CMOS devices in the industry-preferred N2O environment.展开更多
基金Project supported by the National Natural Science Foundation of China (Grant No 60376019).
文摘The paper reports that Hfrio dielectric is deposited by reactive co-sputtering of Hf and Ti targets in an Ar/O2 ambience, followed by an annealing in different gas ambiences of N2, NO and NH3 at 600℃ for 2 min. Capacitancevoltage and gate-leakage properties are characterized and compared. The results indicate that the NO-annealed sample exhibits the lowest interface-state and dielectric-charge densities and best device reliability. This is attributed to the fact that nitridation can create strong Si≡N bonds to passivate dangling Si bonds and replace strained Si-O bonds, thus the sample forms a hardened dielectric/Si interface with high reliability.
基金Funded by the National Natural Science Foundation of China (NSFC, No. 60376019)
文摘HfTiN film was deposited by co-reactive sputtering and then was annealed in dif-ferent gas ambients at temperature of 650 ℃ for 2 min to form HfTiON film. Capacitance-voltage and gate-leakage characteristics were investigated. The N2O-annealed sample exhibited small inter-face-state and oxide-charge densities, and enhanced reliability, which was attributed to the fact that nitridation could create strong Si≡N bonds to passivate dangling Si bonds and replaced strained Si-O bonds, thus forming a hardened dielectric/Si interface with high reliability. As a result, it is possible to prepare high-quality HfTiON gate dielectric of small-scaling CMOS devices in the industry-preferred N2O environment.
