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Fabrication of Metal Contacts on Silicon Nanopillars: The Role of Surface Termination and Defectivity
Fabrication of Metal Contacts on Silicon Nanopillars: The Role of Surface Termination and Defectivity
by Calciati, Luca , Giulio, Federico , Mazzacua, Antonio , Narducci, Dario
in Chemical etching / Decoupling / Electric contacts / Electric properties / Electroplating / Etching / Figure of merit / Forests / Heat conductivity / Insulators / Nanoparticles / Nanowires / Power factor / Silicon / Silicon wafers / Single crystals / Thermal conductivity / Thermoelectric materials
2024
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Fabrication of Metal Contacts on Silicon Nanopillars: The Role of Surface Termination and Defectivity
by Calciati, Luca , Giulio, Federico , Mazzacua, Antonio , Narducci, Dario
in Chemical etching / Decoupling / Electric contacts / Electric properties / Electroplating / Etching / Figure of merit / Forests / Heat conductivity / Insulators / Nanoparticles / Nanowires / Power factor / Silicon / Silicon wafers / Single crystals / Thermal conductivity / Thermoelectric materials
2024
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Fabrication of Metal Contacts on Silicon Nanopillars: The Role of Surface Termination and Defectivity
Fabrication of Metal Contacts on Silicon Nanopillars: The Role of Surface Termination and Defectivity
by Calciati, Luca , Giulio, Federico , Mazzacua, Antonio , Narducci, Dario
in Chemical etching / Decoupling / Electric contacts / Electric properties / Electroplating / Etching / Figure of merit / Forests / Heat conductivity / Insulators / Nanoparticles / Nanowires / Power factor / Silicon / Silicon wafers / Single crystals / Thermal conductivity / Thermoelectric materials
2024

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Fabrication of Metal Contacts on Silicon Nanopillars: The Role of Surface Termination and Defectivity
Fabrication of Metal Contacts on Silicon Nanopillars: The Role of Surface Termination and Defectivity
Journal Article

Fabrication of Metal Contacts on Silicon Nanopillars: The Role of Surface Termination and Defectivity

Calciati, Luca,
Giulio, Federico,
Mazzacua, Antonio,
Narducci, Dario
2024
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Overview
The application of nanotechnology in developing novel thermoelectric materials has yielded remarkable advancements in material efficiency. In many instances, dimensional constraints have resulted in a beneficial decoupling of thermal conductivity and power factor, leading to large increases in the achievable thermoelectric figure of merit (ZT). For instance, the ZT of silicon increases by nearly two orders of magnitude when transitioning from bulk single crystals to nanowires. Metal-assisted chemical etching offers a viable, low-cost route for preparing silicon nanopillars for use in thermoelectric devices. The aim of this paper is to review strategies for obtaining high-density forests of Si nanopillars and achieving high-quality contacts on them. We will discuss how electroplating can be used for this aim. As an alternative, nanopillars can be embedded into appropriate electrical and thermal insulators, with contacts made by metal evaporation on uncapped nanopillar tips. In both cases, it will be shown how achieving control over surface termination and defectivity is of paramount importance, demonstrating how a judicious control of defectivity enhances contact quality.
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Publisher
MDPI AG
Subject

Chemical etching

/ Decoupling

/ Electric contacts

/ Electric properties

/ Electroplating

/ Etching

/ Figure of merit

/ Forests

/ Heat conductivity

/ Insulators

/ Nanoparticles

/ Nanowires

/ Power factor

/ Silicon

/ Silicon wafers

/ Single crystals

/ Thermal conductivity

/ Thermoelectric materials

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