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Site-controlled formation of single Si nanocrystals in a buried SiO2 matrix using ion beam mixing

by Möller Wolfhard , Xu Xiaomo , Wolf, Daniel , Bischoff Lothar , Engelmann Hans-Jürgen , Prüfer, Thomas , Hübner René , Facsko Stefan , Johannes, von Borany , Heinig Karl-Heinz , Hlawacek Gregor

in Approximation / Collision dynamics / Dependence / Energy / Energy transmission / Fluence / Full Research Paper / helium ion microscopy / Helium ions / Ion beam mixing / Ion beams / Lamella / Monte Carlo simulation / Monte Carlo simulations / Nanocrystals / Nanoelectronics / Nanoscience / Nanotechnology / Nanotechnology devices / Phase separation / Self-assembly / Semiconductor devices / Silicon dioxide / single electron transistor / Single-electron transistors / Transmission electron microscopy

2018

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Site-controlled formation of single Si nanocrystals in a buried SiO2 matrix using ion beam mixing

2018

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Site-controlled formation of single Si nanocrystals in a buried SiO2 matrix using ion beam mixing

2018

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Journal Article

Site-controlled formation of single Si nanocrystals in a buried SiO2 matrix using ion beam mixing

Möller Wolfhard,

Xu Xiaomo,

Wolf, Daniel,

Bischoff Lothar,

Engelmann Hans-Jürgen,

Prüfer, Thomas,

Hübner René,

Facsko Stefan,

Johannes, von Borany,

Heinig Karl-Heinz,

Hlawacek Gregor

2018

Overview

For future nanoelectronic devices – such as room-temperature single electron transistors – the site-controlled formation of single Si nanocrystals (NCs) is a crucial prerequisite. Here, we report an approach to fabricate single Si NCs via medium-energy Si+ or Ne+ ion beam mixing of Si into a buried SiO2 layer followed by thermally activated phase separation. Binary collision approximation and kinetic Monte Carlo methods are conducted to gain atomistic insight into the influence of relevant experimental parameters on the Si NC formation process. Energy-filtered transmission electron microscopy is performed to obtain quantitative values on the Si NC size and distribution in dependence of the layer stack geometry, ion fluence and thermal budget. Employing a focused Ne+ beam from a helium ion microscope, we demonstrate site-controlled self-assembly of single Si NCs. Line irradiation with a fluence of 3000 Ne+/nm2 and a line width of 4 nm leads to the formation of a chain of Si NCs, and a single NC with 2.2 nm diameter is subsequently isolated and visualized in a few nanometer thin lamella prepared by a focused ion beam (FIB). The Si NC is centered between the SiO2 layers and perpendicular to the incident Ne+ beam.

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Publisher

Beilstein-Institut zur Föerderung der Chemischen Wissenschaften,Beilstein-Institut

Subject

Approximation

/ Collision dynamics

/ Dependence

/ Energy

/ Energy transmission

/ Fluence

/ Full Research Paper