Luke Eaton scite author profile

Luke Eaton

3Publications

18Citation Statements Received

56Citation Statements Given

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Affiliations

Advanced Materials and BioEngineering Research, University College Cork, Trinity College Dublin

Publications

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Exploring conductivity in ex-situ doped Si thin films as thickness approaches 5 nm

MacHale

Meaney

Kennedy

et al. 2019

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Phosphorus monolayer doping (MLD) of silicon on insulator (SOI) substrates

Kennedy¹,

Duffy²,

Eaton³

et al. 2018

Beilstein J. Nanotechnol.

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This paper details the application of phosphorus monolayer doping of silicon on insulator substrates. There have been no previous publications dedicated to the topic of MLD on SOI, which allows for the impact of reduced substrate dimensions to be probed. The doping was done through functionalization of the substrates with chemically bound allyldiphenylphosphine dopant molecules. Following functionalization, the samples were capped and annealed to enable the diffusion of dopant atoms into the substrate and their activation. Electrical and material characterisation was carried out to determine the impact of MLD on surface quality and activation results produced by the process. MLD has proven to be highly applicable to SOI substrates producing doping levels in excess of 1 × 1019 cm−3 with minimal impact on surface quality. Hall effect data proved that reducing SOI dimensions from 66 to 13 nm lead to an increase in carrier concentration values due to the reduced volume available to the dopant for diffusion. Dopant trapping was found at both Si–SiO2 interfaces and will be problematic when attempting to reach doping levels achieved by rival techniques.

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Monolayer doping of silicon-germanium alloys: A balancing act between phosphorus incorporation and strain relaxation

Kennedy

Duffy²,

Mirabelli³

et al. 2019

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This paper presents the application of monolayer doping (MLD) to silicon-germanium (SiGe). This study was carried out for phosphorus dopants on wafers of epitaxially grown thin films of strained SiGe on silicon with varying concentrations of Ge (18%, 30%, and 60%). The challenge presented here is achieving dopant incorporation while minimizing strain relaxation. The impact of high temperature annealing on the formation of defects due to strain relaxation of these layers was qualitatively monitored by cross-sectional transmission electron microscopy and atomic force microscopy prior to choosing an anneal temperature for the MLD drive-in. Though the bulk SiGe wafers provided are stated to have 18%, 30%, and 60% Ge in the epitaxial SiGe layers, it does not necessarily mean that the surface stoichiometry is the same, and this may impact the reaction conditions. X-ray photoelectron spectroscopy (XPS) and angle-resolved XPS were carried out to compare the bulk and surface stoichiometry of SiGe to allow tailoring of the reaction conditions for chemical functionalization. Finally, dopant profiling was carried out by secondary ion mass spectrometry to determine the impurity concentrations achieved by MLD. It is evident from the results that phosphorus incorporation decreases for increasing mole fraction of Ge, when the rapid thermal annealing temperature is a fixed amount below the melting temperature of each alloy.

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Luke Eaton

Exploring conductivity in ex-situ doped Si thin films as thickness approaches 5 nm

Phosphorus monolayer doping (MLD) of silicon on insulator (SOI) substrates

Monolayer doping of silicon-germanium alloys: A balancing act between phosphorus incorporation and strain relaxation

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