Growth and characterization of Ag–Al2O3 composites thin films for thermoelectric power generation applications

Inaam Ullah; M. Tamseel; Mongi Amami; Muhammad Rizwan Javed; K. Javaid; K. Mahmood; Salma Ikram; A. Ali; N. Amin; M. Shujaat Hussain; M. Yasir Ali; M. Imran Arshad

doi:10.1016/j.ceramint.2021.10.145

Growth and characterization of Ag–Al₂O₃ composites thin films for thermoelectric power generation applications

Inaam Ullah, M. Tamseel, Mongi Amami, Muhammad Rizwan Javed, K. Javaid, K. Mahmood^*, Salma Ikram, A. Ali, N. Amin, M. Shujaat Hussain, M. Yasir Ali, M. Imran Arshad

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

Thin films of Ag–Al₂O₃ composites were successfully grown on Si substrate by thermal evaporation method and their thermoelectric performance was modulated using post growth annealing technique. Pellet of Ag and Al mixture having 1:4 ratio was evaporated on Si substrate using the vacuum tube furnace. As grown sample was cut into pieces and post-growth annealing was performed at different temperatures using muffle furnace. XRD results suggested that as-deposited sample has amorphous nature, but crystallinity of the samples increase as an annealing temperature increase from 600 to 900^oC. This structural behavior of annealed samples was further verified by Raman spectroscopy measurements. We have reported an optimal annealing temperature (800 ⁰C) for the best thermoelectric performance of investigated composites. At this specific annealing temperature, charge carriers are highly mobile which resulted in the enhancement of thermoelectric power generation performance of Ag–Al₂O₃ composite. The value of power factor (1.38x10⁻² W/m-K⁻²) reported in the current study is the highest value for Ag–Al₂O₃ composites so for reported in the literature according to the best of our knowledge.

Original language	English
Pages (from-to)	3647-3651
Number of pages	5
Journal	Ceramics International
Volume	48
Issue number	3
DOIs	https://doi.org/10.1016/j.ceramint.2021.10.145
State	Published - 1 Feb 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021 Elsevier Ltd and Techna Group S.r.l.

Keywords

Ag–AlO thin films
Annealing temperature
Thermal evaporation
Thermoelectric performance

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Ceramics and Composites
Process Chemistry and Technology
Surfaces, Coatings and Films
Materials Chemistry

Access to Document

10.1016/j.ceramint.2021.10.145

Cite this

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title = "Growth and characterization of Ag–Al2O3 composites thin films for thermoelectric power generation applications",

abstract = "Thin films of Ag–Al2O3 composites were successfully grown on Si substrate by thermal evaporation method and their thermoelectric performance was modulated using post growth annealing technique. Pellet of Ag and Al mixture having 1:4 ratio was evaporated on Si substrate using the vacuum tube furnace. As grown sample was cut into pieces and post-growth annealing was performed at different temperatures using muffle furnace. XRD results suggested that as-deposited sample has amorphous nature, but crystallinity of the samples increase as an annealing temperature increase from 600 to 900oC. This structural behavior of annealed samples was further verified by Raman spectroscopy measurements. We have reported an optimal annealing temperature (800 0C) for the best thermoelectric performance of investigated composites. At this specific annealing temperature, charge carriers are highly mobile which resulted in the enhancement of thermoelectric power generation performance of Ag–Al2O3 composite. The value of power factor (1.38x10−2 W/m-K−2) reported in the current study is the highest value for Ag–Al2O3 composites so for reported in the literature according to the best of our knowledge.",

keywords = "Ag–AlO thin films, Annealing temperature, Thermal evaporation, Thermoelectric performance",

author = "Inaam Ullah and M. Tamseel and Mongi Amami and Javed, {Muhammad Rizwan} and K. Javaid and K. Mahmood and Salma Ikram and A. Ali and N. Amin and Hussain, {M. Shujaat} and Ali, {M. Yasir} and Arshad, {M. Imran}",

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doi = "10.1016/j.ceramint.2021.10.145",

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AU - Ullah, Inaam

AU - Tamseel, M.

AU - Amami, Mongi

AU - Javed, Muhammad Rizwan

AU - Javaid, K.

AU - Mahmood, K.

AU - Ikram, Salma

AU - Ali, A.

AU - Amin, N.

AU - Hussain, M. Shujaat

AU - Ali, M. Yasir

AU - Arshad, M. Imran

PY - 2022/2/1

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N2 - Thin films of Ag–Al2O3 composites were successfully grown on Si substrate by thermal evaporation method and their thermoelectric performance was modulated using post growth annealing technique. Pellet of Ag and Al mixture having 1:4 ratio was evaporated on Si substrate using the vacuum tube furnace. As grown sample was cut into pieces and post-growth annealing was performed at different temperatures using muffle furnace. XRD results suggested that as-deposited sample has amorphous nature, but crystallinity of the samples increase as an annealing temperature increase from 600 to 900oC. This structural behavior of annealed samples was further verified by Raman spectroscopy measurements. We have reported an optimal annealing temperature (800 0C) for the best thermoelectric performance of investigated composites. At this specific annealing temperature, charge carriers are highly mobile which resulted in the enhancement of thermoelectric power generation performance of Ag–Al2O3 composite. The value of power factor (1.38x10−2 W/m-K−2) reported in the current study is the highest value for Ag–Al2O3 composites so for reported in the literature according to the best of our knowledge.

AB - Thin films of Ag–Al2O3 composites were successfully grown on Si substrate by thermal evaporation method and their thermoelectric performance was modulated using post growth annealing technique. Pellet of Ag and Al mixture having 1:4 ratio was evaporated on Si substrate using the vacuum tube furnace. As grown sample was cut into pieces and post-growth annealing was performed at different temperatures using muffle furnace. XRD results suggested that as-deposited sample has amorphous nature, but crystallinity of the samples increase as an annealing temperature increase from 600 to 900oC. This structural behavior of annealed samples was further verified by Raman spectroscopy measurements. We have reported an optimal annealing temperature (800 0C) for the best thermoelectric performance of investigated composites. At this specific annealing temperature, charge carriers are highly mobile which resulted in the enhancement of thermoelectric power generation performance of Ag–Al2O3 composite. The value of power factor (1.38x10−2 W/m-K−2) reported in the current study is the highest value for Ag–Al2O3 composites so for reported in the literature according to the best of our knowledge.

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