Influence of different annealing ambient on terbium oxide passivation layers sputtered using the RF sputtering on silicon substrate

Abubakar A Sifawa; Sabah M Mohammad; A Muhammad; Shireen Mohammed Abed; Way Foong Lim

doi:10.1088/2632-959X/ad52b4

Nano Express (Jan 2024)

Influence of different annealing ambient on terbium oxide passivation layers sputtered using the RF sputtering on silicon substrate

Abubakar A Sifawa,
Sabah M Mohammad,
A Muhammad,
Shireen Mohammed Abed,
Way Foong Lim

Affiliations

Abubakar A Sifawa: ORCiD; Institute of Nano Optoelectronics Research and Technology (INOR), Universiti Sains Malaysia , 11800, USM, Penang, Malaysia; Department of Physics, Sokoto State University , Sokoto 852101, SSU, Sokoto, Nigeria
Sabah M Mohammad: ORCiD; Institute of Nano Optoelectronics Research and Technology (INOR), Universiti Sains Malaysia , 11800, USM, Penang, Malaysia
A Muhammad: Department of Physics, Sule Lamido University Kafin-Hausa , Jigawa State, Nigeria
Shireen Mohammed Abed: Institute of Nano Optoelectronics Research and Technology (INOR), Universiti Sains Malaysia , 11800, USM, Penang, Malaysia; Department of Physics, College of Education for Pure Science, University of Anbar , Ramadi, Iraq
Way Foong Lim: Institute of Nano Optoelectronics Research and Technology (INOR), Universiti Sains Malaysia , 11800, USM, Penang, Malaysia

DOI: https://doi.org/10.1088/2632-959X/ad52b4
Journal volume & issue: Vol. 5, no. 2
p. 025023

Abstract

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This study investigates the influence of different annealing ambient on terbium oxide (Tb _4 O _7 ) passivation layers sputtered using radio frequency (RF) sputtering on silicon (Si) substrates. The passivation layers were subjected to annealing in various ambient, including oxygen (O _2 ), nitrogen (N _2 ), argon (Ar), and nitrogen-oxygen-nitrogen (NON). The structural, morphological, compositional, topological, and optical properties of the passivation layers were characterized using various techniques. The obtained results indicate that the annealing ambient has a significant impact on the properties of Tb _4 O _7 passivation layers. Annealing in Ar ambient leads to the formation of Tb _4 O _7 with improved crystallinity close to 49.75 nm and higher surface roughness at (2.32 nm). In contrast, annealing in the O _2 ambient results in broad GIXRD peaks with the lowest surface roughness around (1.34 nm). Notably, annealing in N _2 ambient exhibits an intermediate behavior, with partial crystallized size values (31.80 nm) compared to the Tb _4 O _7 passivation layer annealed in Ar ambient and moderate surface roughness. The optical bandgap (Eg) was estimated by applying the Kubelka–Munk (KM) approach and the obtained values were 3.28, 3.17, 2.37, and 2.27 eV for annealed in O _2 , N _2 , Ar, and NON ambients, respectively. The investigation of Tb _4 O _7 as a passivation material expands the range of materials available for semiconductor device fabrication, offering potential advancements in optoelectronics applications. Therefore, the significance of this study lies in its contribution to the optimization of Tb _4 O _7 passivation layers in the field of semiconductor device technology. Hence, the sample annealed in an Ar ambient demonstrated the best results in terms of structural, morphological, compositional, topological, and optical properties of Tb _4 O _7 passivation layers as compared to other samples.

Published in Nano Express

ISSN: 2632-959X (Online)
Publisher: IOP Publishing
Country of publisher: United Kingdom
LCC subjects: Technology: Chemical technology
Website: https://iopscience.iop.org/journal/2632-959X

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