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High Permittivity Oxide Gate Stacks on Silicon Incorporating UHV Silicon Nitride Interfacial Layers
Published online by Cambridge University Press: 21 March 2011
Abstract
Current high permittivity material deposition techniques produce a low permittivity oxide interfacial layer consequently increasing the equivalent oxide thickness. This interfacial oxide layer can be prevented by initially growing a thin nitride layer to act as a diffusion barrier. The interfacial nitride layer must also have low interface state densities comparable to state-of-the-art SiO2 insulators in order to be suitable for MOSFETs. The nitride layer used in this study was formed by thermal nitridation in a UHV system, with the subsequent high permittivity deposition done in an adjoining system. After forming capacitors from these films, capacitance vs. voltage (C-V) techniques were used to determine the interface state density and equivalent oxide thickness of the films. Gate stack films were produced on Si(100) and Si(111) and the results are compared. Gate stacks on Si(100) show a slight increase in stretchout in the high frequency C-V curves for both n-type and p-type samples. Initial data suggests that Si(111) has a lower interface state density than the Si(100) gate stacks. This may be attributed to the Si3N4layer on Si(111) being epitaxial nitride.
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- Copyright © Materials Research Society 2001
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