Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Atomic Scale Study of Cosi/Si (111) and CoSi2/Si (111) Interfaces
View through CrossRef
ABSTRACTHigh Resolution Electron Microscopy (HREM) was used to study microstructural changes related to the CoSi/Si-CoSi/CoSi2/Si-CoSi2/Si transformations. CoSi is found to grow epitaxially on Si with [111]Si // [111]CoSi and < 110 >Si // < 112 >CoSi. Two CoSi non-equivalent orientations (rotated by 180° around the substrate normal) can occur in this plane. They can be clearly distinguished by HRTEM on cross-sections ( electron beam along [110]Si). At about 500°C CoSi transforms to CoSi2. Experimental results show that the type B orientation relationship satisfying [110]Si // [112]CoSi is preserved after the initial stage of CoSi2 formation. At this stage an epitaxial CoSi/CoSi2/Si(111) system is obtained. The atomic scale investigation of the CoSi2/Si interface shows that a 7-fold coordination of the cobalt atoms is observed in both type A and type B epitaxies.
Springer Science and Business Media LLC
Title: Atomic Scale Study of Cosi/Si (111) and CoSi2/Si (111) Interfaces
Description:
ABSTRACTHigh Resolution Electron Microscopy (HREM) was used to study microstructural changes related to the CoSi/Si-CoSi/CoSi2/Si-CoSi2/Si transformations.
CoSi is found to grow epitaxially on Si with [111]Si // [111]CoSi and < 110 >Si // < 112 >CoSi.
Two CoSi non-equivalent orientations (rotated by 180° around the substrate normal) can occur in this plane.
They can be clearly distinguished by HRTEM on cross-sections ( electron beam along [110]Si).
At about 500°C CoSi transforms to CoSi2.
Experimental results show that the type B orientation relationship satisfying [110]Si // [112]CoSi is preserved after the initial stage of CoSi2 formation.
At this stage an epitaxial CoSi/CoSi2/Si(111) system is obtained.
The atomic scale investigation of the CoSi2/Si interface shows that a 7-fold coordination of the cobalt atoms is observed in both type A and type B epitaxies.
Related Results
CoSi and CoSi2 Phase Formation on Bulk and Soi Si Substrates
CoSi and CoSi2 Phase Formation on Bulk and Soi Si Substrates
ABSTRACTWe have studied the CoSi and CoSi2 phase formation sequence in (001) bulk and SOI Si wafers, using Co/Ti bimetallic layers as source materials which are suitable for growin...
First stage of CoSi2 formation during a solid-state reaction
First stage of CoSi2 formation during a solid-state reaction
The kinetics of CoSi2 formation via a solid-state reaction between CoSi and single crystal Si has been the object of many studies in the past. Because of the importance of nucleati...
A Novel Technique for Ultrathin CoSi2 Layers: Oxide Mediated Epitaxy
A Novel Technique for Ultrathin CoSi2 Layers: Oxide Mediated Epitaxy
A novel technique, oxide mediated epitaxy (OME), was recently described for the growth of single crystal CoSi2 layers on the (100), (110), and (111) surfaces of silicon. Deposi...
Application of a Two-Step Growth to the Formation of Epitaxial CoSi2 Films on Si(001) Surfaces: Comparative Study using Reactive Deposition Epitaxy
Application of a Two-Step Growth to the Formation of Epitaxial CoSi2 Films on Si(001) Surfaces: Comparative Study using Reactive Deposition Epitaxy
Epitaxial growth of 20-nm-thick CoSi2 films on Si(001) surfaces has been investigated for a two-step growth and reactive deposition epitaxy (RDE) at growth temperatures of 320–680°...
Controlling CoSi2 nucleation : the effect of entropy of mixing
Controlling CoSi2 nucleation : the effect of entropy of mixing
ABSTRACTIt is generally known that nucleation effects strongly influence the CoSi to CoSi2 phase transition. According to classical nucleation theory, the small difference in Gibbs...
CoSi2 formation using a Ti capping layer - The influence of processing conditions on CoSi2 nucleation.
CoSi2 formation using a Ti capping layer - The influence of processing conditions on CoSi2 nucleation.
ABSTRACTA reactive Ti capping layer is needed to getter oxygen contamination and to make the cobalt silicidation reaction a more robust process. However, the presence of a Ti cappi...
Atomic electron tomography: 3D structures without crystals
Atomic electron tomography: 3D structures without crystals
BACKGROUND
To understand material properties and functionality at the most fundamental level, one must know the three-dimensional (3D) positions of atoms with h...
GROWTH AND CHARACTERIZATION OF EPITAXIAL Si/CoSi2 AND Si/CoSi2/Si HETEROSTRUCTURES
GROWTH AND CHARACTERIZATION OF EPITAXIAL Si/CoSi2 AND Si/CoSi2/Si HETEROSTRUCTURES
AbstractThin (<200Å), epitaxial CoSi2 films have been grown on (111) Siwafers in a UHV system using a variety of growth techniques including solid phase epitaxy (SPE), reactive ...