Romanian Journal of Information Science and Technology (ROMJIST)

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ROMJIST is a publication of Romanian Academy,
Section for Information Science and Technology

Editor – in – Chief:
Radu-Emil Precup

Honorary Co-Editors-in-Chief:
Horia-Nicolai Teodorescu
Gheorghe Stefan

Secretariate (office):
Adriana Apostol
Adress for correspondence: romjist@nano-link.net (after 1st of January, 2019)

Founding Editor-in-Chief
(until 10th of February, 2021):
Dan Dascalu

Editing of the printed version: Mihaela Marian (Publishing House of the Romanian Academy, Bucharest)

Technical editor
of the on-line version:
Lucian Milea (University POLITEHNICA of Bucharest)

Sponsor:
• National Institute for R & D
in Microtechnologies
(IMT Bucharest), www.imt.ro

ROMJIST Volume 27, No. 2, 2024, pp. 229-240, DOI: 10.59277/ROMJIST.2024.2.09
 

Cosmin ROMANITAN, José Manuel CAICEDO, Razvan PASCU, Iuliana MIHALACHE, Raluca GAVRILA, Marius STOIAN, Nikolay DJOURELOV, Jessica PADILLA-PANTOJA
Microstructure of VO2 Thin Films Synthesized by Pulsed Laser Deposition

ABSTRACT: In this paper, pulsed laser deposition (PLD) at low partial oxygen pressure (~10 mTorr) was used to obtain VO2 thin films. During the PLD, the deposition temperature and number of pulses were varied in order to obtain a good sample crystallinity. It was showed by atomic force microscopy (AFM) micrographs that the mean grain size increased from ~ 40 nm to ~ 90 nm at a variation of the deposition temperature from 400 ˚C to 500 ˚C. Further, by increasing of both substrate temperature and number of pulses, the mean grain size increases to 220 nm. According to the Rietveld refinement of the experimental X-ray diffraction (XRD) pattern, within the grain size increasing, the mean crystallite size increased from 14 nm to 22 nm, as well as a decreasing of the lattice strain from 0.29% to 0.20%. These dependencies further imply a decreasing of the dislocation density of 2.3 to 0.9 × 1012 cm-2. At the same time, the optical band gap decreased from 0.72 eV (400 ˚C) to 0.66 eV (500 ˚C), reaching 0.60 eV (600 ˚C). Further investigations performed by X-ray photoelectron spectroscopy (XPS) showed the vanadium oxide presence, by the spin-orbit splitting of approximately 7.5 eV between V 2p3/2 and V 2p1/2 orbitals. Finally, the electrical measurements done in the range of 250 – 370 K reveal a close relationship between the dislocation density and the observed resistance-temperature dependence.

KEYWORDS: Pulsed laser deposition; resistance-temperature curves; Rietveld refinement; vanadium oxide; X-ray diffraction

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