Improvement of SiO2/Si Interface Properties Utilising Fluorine Ion Implantation and Drive-in Diffusion

Kiyonori Ohyu; Toshihiko Itoga; Yasushiro Nishioka; Nobuyoshi Natsuaki

doi:10.1143/JJAP.28.1041

Japanese Journal of Applied Physics

Improvement of SiO₂/Si Interface Properties Utilising Fluorine Ion Implantation and Drive-in Diffusion

Kiyonori Ohyu¹, Toshihiko Itoga¹, Yasushiro Nishioka¹ and Nobuyoshi Natsuaki¹

Copyright (c) 1989 The Japan Society of Applied Physics
Japanese Journal of Applied Physics, Volume 28, Number 6R Citation Kiyonori Ohyu et al 1989 Jpn. J. Appl. Phys. 28 1041 DOI 10.1143/JJAP.28.1041

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¹ Central Research Laboratory, Hitachi, Ltd.

Dates

Received 3 March 1989
Accepted 22 April 1989

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Abstract

Thermal drive-in diffusion of ion-implanted F atoms has been employed to fluorinate SiO₂/Si interfaces and thereby improve their electrical properties. The interface state density can be lowered with little fixed charge generation. Correspondingly, pn-junction surface leakage current decreases. Furthermore, the interfaces can be hardened against hot-electrons due to Fowler-Nordheim current injection and avalanche current at the junction surface. As a result, a fluorinated MOSFET shows higher hot-carrier immunity. It is pointed out that there is an optimal F dose for these improvements to be achieved.

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