Improved Ge Surface Passivation With Ultrathin $ \hbox{SiO}_{X}$ Enabling High-Mobility Surface Channel pMOSFETs Featuring a HfSiO/WN Gate Stack

Sachin Joshi,Jack C Lee,Hoon Joo Na,Byoung Hun Lee,Paul D Kirsch,Raj Jammy,Harlan R Harris,Jung Woo Oh,Prashant Majhi,Cristiano Krug,Sanjay K Banerjee,Hsing-Huang Tseng,Dawei Heh

doi:10.1109/led.2007.893274

Improved Ge Surface Passivation With Ultrathin $ \hbox{SiO}_{X}$ Enabling High-Mobility Surface Channel pMOSFETs Featuring a HfSiO/WN Gate Stack

Sachin Joshi, Jack C Lee + Show 11 more

https://doi.org/10.1109/led.2007.893274

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Journal: IEEE Electron Device Letters	Publication Date: Apr 1, 2007
Citations: 46

Affiliation: The University of Texas at Austin, Intel (United States)

#SiOX Passivation Layer #Bulk Ge Substrate + Show 8 more

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Abstract

To realize high-mobility surface channel pMOSFETs on Ge, a 1.6-nm-thick SiOX passivation layer between the bulk Ge substrate and HfSiO gate dielectric was introduced. This approach provides a simple alternative to epitaxial Si deposition followed by selective oxidation and leads to one of the highest peak hole mobilities reported for unstrained surface channel pMOSFETs on Ge: 332 cm2 middotV-1middots-1 at 0.05 MV/cm-a 2times enhancement over the universal Si/SiO2 mobility. The devices show well-behaved output and transfer characteristics, an equivalent oxide thickness of 1.85 nm and an ION/IOFF ratio of 3times103 without detectable fast transient charging. The high hole mobility of these devices is attributed to adequate passivation of the Ge surface

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