ScN/sub x/ gate on atomic layer deposited HfO/sub 2/ and effect of high-pressure wet post deposition annealing |
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Authors: | Hyundoek Yang Dongsoo Lee Rahman M.S. Hasan M. Hyung-Seok Jung Hyunsang Hwang |
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Affiliation: | Dept. of Mater. Sci. & Eng., Gwangju Inst. of Sci. & Technol., South Korea; |
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Abstract: | For nMOS devices with HfO/sub 2/, a metal gate with a very low workfunction is necessary. In this letter, the effective workfunction (/spl Phi//sub m,eff/) values of ScN/sub x/ gates on both SiO/sub 2/ and atomic layer deposited (ALD) HfO/sub 2/ are evaluated. The ScN/sub x//SiO/sub 2/ samples have a wide range of /spl Phi//sub m,eff/ values from /spl sim/ 3.9 to /spl sim/ 4.7 eV, and nMOS-compatible /spl Phi//sub m,eff/ values can be obtained. However, the ScN/sub x/ gates on conventional post deposition-annealed HfO/sub 2/ show a relatively narrow range of /spl Phi//sub m,eff/ values from /spl sim/ 4.5 to /spl sim/ 4.8 eV, and nMOS-compatible /spl Phi//sub m,eff/ values cannot be obtained due to the Fermi-level pinning (FLP) effect. Using high-pressure wet post deposition annealing, we could dramatically reduce the extrinsic FLP. The /spl Phi//sub m,eff/ value of /spl sim/ 4.2 eV was obtained for the ScN/sub x/ gate on the wet-treated HfO/sub 2/. Therefore, ScN/sub x/ metal gate is a good candidate for nMOS devices with ALD HfO/sub 2/. |
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