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Pires, Al
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Publications (10/10 displayed)
- 2021On manipulating the thermoelectric potential of p-type ZnO by nanostructuringcitations
- 2020Freestanding and flexible composites of magnetocaloric Gd-5(Si,Ge)(4) microparticles embedded in thermoplastic poly(methyl methacrylate) matrixcitations
- 2019Highly sensitive thermoelectric touch sensor based on p-type SnOx thin filmcitations
- 2019Multicaloric effect in a multiferroic composite of Gd-5(Si,Ge)(4) microparticles embedded into a ferroelectric PVDF matrixcitations
- 2019Printed Flexible mu-Thermoelectric Device Based on Hybrid Bi2Te3/PVA Compositescitations
- 2019High-Performance mu-Thermoelectric Device Based on Bi2Te3/Sb2Te3 p-n Junctionscitations
- 2017Highly Active Ruthenium Supported on Magnetically Recyclable Chitosan-Based Nanocatalyst for Nitroarenes Reductioncitations
- 2017Suppression of magnetostructural transition on GdSiGe thin film after thermal cyclingscitations
- 2017Bi-Te Thin Film Produced by Ion Beam Sputtering: Impact of Beam Voltage in the Seebeck Coefficientcitations
- 2015On the growth and physical-chemical characterization of Tb5Si2Ge2 thin films produced by electron-beam evaporationcitations
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document
Bi-Te Thin Film Produced by Ion Beam Sputtering: Impact of Beam Voltage in the Seebeck Coefficient
Abstract
The preparation of high-quality, economic and scalable thin films are crucial for future applications in efficient thermoelectric devices. Ion Beam sputtering deposition appears as an elegant solution to tackle this challenge and in this context it will be used in this work. Thus herein, we assess the influence of the beam voltage in the thermoelectric properties through a thorough study of the morphological, chemical and transport properties in the produced thin films. It outcome that beam voltage drastically influences the stoichiometry leading to different crystalline structures that directly affect the thermoelectric properties of the Bi-Te deposited thin films.