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Influence of the Ge Dose in Ion-implanted SiO2 Layers on the Related Nanocrystal-memory Properties

Published online by Cambridge University Press:  01 February 2011

Sébastien Duguay ,
Jean-Jacques Grob ,
Abdelilah Slaoui  and
Philippe Kern
Sébastien Duguay
Affiliation:
duguay@iness.c-strasbourg.fr, CNRS/ULP, Iness, 23, rue du Loess, BP 20 CR, STRASBOURG, france, 67037, France, 0033388106420, 0033388106548
Jean-Jacques Grob
Affiliation:
grob@iness.c-strasbourg.fr, CNRS/ULP, InESS, 23 rue du Loess, Strasbourg, france, 67037, France
Abdelilah Slaoui
Affiliation:
slaoui@iness.c-strasbourg.fr, CNRS/ULP, InESS, 23 rue du Loess, Strasbourg, france, 67037, France
Philippe Kern
Affiliation:
Kern@iness.c-strasbourg.fr, CNRS/ULP, InESS, 23 rue du Loess, Strasbourg, france, 67037, France
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Abstract

Thin silicon dioxide (SiO2) on Si layers with embedded germanium nanocrystals (Ge-ncs) were fabricated using 74Ge+-implantation at 15 keV and subsequent annealing. Transmission electron microscopy and Rutherford backscattering spectrometry have been used to study the Ge redistribution in the SiO2 films as a function of implantation dose under specific annealing conditions. At low implantation doses, Germanium is found to segregate at the Si/SiO2 interface leading to poor electrical properties. At higher doses and when the disorder limit of one displacement per atom is reached at the interface, transmission electron microscopy revealed the formation of a Ge-nc layer array located close to the Si/SiO2 interface and an another one inside the SiO2 host material. This near-interface high density (>1012 ncs/cm2) nc-layer is found to act as a floating gate embedded within the silicon dioxide. Capacitance-voltage measurements performed on metal-oxide-semiconductor structures containing such implanted SiO2 layers show significant memory properties (few volts hysteresis) at low programming voltages (<|10V|) due to the presence of Ge-ncs near the Si/SiO2 interface

Keywords

Geion-beam processingnanostructure
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 933: Symposium G – Science and Technology of Nonvolatile Memories , 2006 , 0933-G02-05
Copyright
Copyright © Materials Research Society 2006

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