Study of Ta-Si-N thin films for use as barrier layer in copper metallizations

This work focuses on the deposition process, microanalytical characterization and barrier behavior of 10-100-nm thick sputtered Ta-Si and Ta- Si-N films. Pure Ta-Si films were found to be already nanocrystalline. The addition of N sub 2 leads to a further grain fining resulting in amorphous films wi...

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Veröffentlicht in:	Microelectronic engineering 1999-03, Vol.50 (1-4), p.459-464
Hauptverfasser:	Fischer, D, Scherg, T, Bauer, J G, Schulze, H J, Wenzel, C.,-
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Sprache:	eng
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creator	Fischer, D Scherg, T Bauer, J G Schulze, H J Wenzel, C.,-
description	This work focuses on the deposition process, microanalytical characterization and barrier behavior of 10-100-nm thick sputtered Ta-Si and Ta- Si-N films. Pure Ta-Si films were found to be already nanocrystalline. The addition of N sub 2 leads to a further grain fining resulting in amorphous films with excellent thermal stability. According to microanalytical investigations, Ta-Si barriers between Cu and Si with a thickness of only 10 nm are not stable at 600 deg C. Copper silicides are formed due to intensive Cu diffusion throughout the barrier. In contrast, 10-nm thick nitrogen-rich Ta-Si-N barriers remain thermally stable during annealing at 600 deg C and protect the Si wafer from Cu indiffusion.
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title	Study of Ta-Si-N thin films for use as barrier layer in copper metallizations
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