Sharp Reduction of Contact Resistivities by Effective Schottky Barrier Lowering With Silicides as Diffusion Sources

Zhen Zhang Zhen Zhang,D.-G Park,K.-L Lee,D Klaus ,Guangzheng Zuo ,C Lavoie ,J A Ott ,J Bucchignano ,Won-Ho Song ,C D'emic ,Marinus Hopstaken ,Q Ouyang ,Siegfried L Maurer ,V Chhabra ,Michael A Guillorn ,Wilfried Haensch ,Bin Yang ,Conal E Murray ,F Pagette ,Ahmet Özcan ,J P Silverman ,J Newbury ,Yu Zhu ,A Pyzyna ,J Bruley ,P M Solomon

doi:10.1109/led.2010.2048992

Sharp Reduction of Contact Resistivities by Effective Schottky Barrier Lowering With Silicides as Diffusion Sources

Zhen Zhang Zhen Zhang, D.-G Park + Show 24 more

https://doi.org/10.1109/led.2010.2048992

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Journal: IEEE Electron Device Letters	Publication Date: Jul 1, 2010
Citations: 227

Affiliation: IBM Research - Thomas J. Watson Research Center, IBM (United States)

#Elimination Of Nonlinearities #Effective Schottky Barrier + Show 8 more

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Abstract

An extremely low contact resistivity of 6-7 × 10-9 Ω·cm2 between Ni0.9Pt0.1Si and heavily doped Si is achieved through Schottky barrier engineering by dopant segregation. In this scheme, the implantation of B or As is performed into silicide followed by a low-temperature drive-in anneal. Reduction of effective Schottky barrier height is manifested in the elimination of nonlinearities in IV characteristics.

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