Crystal Structure, Surface Topography, Surface Morphology and Optical Properties of DC Magnetron Sputtered VO<sub>2</sub> Thin Films using VO<sub>2</sub> Target

Muslim, Noormariah; Idris, Muhammad Nur Syafi’ie Md; Soon, Ying Woan; Chau, Yuan-Fong Chou; Lim, Chee Ming; Voo, Nyuk Yoong

doi:10.1088/1757-899x/409/1/012025

Cited by 2 publications

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References 2 publications

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“…DC sputtering and RF magnetron sputtering are the most often used in the deposition of VO 2 thin films. 67 Some innovations have been made to improve these popular methods by making them dual ion assisted or RF-inverted cylindrical magnetron sputtering, producing high-quality VO 2 thin films. 103 Recently research interest has been picked in using the HiPIMS sputtering technique to deposit VO 2 thin films.…”

Section: Methods To Synthesize and Deposit Vo2thin Filmsmentioning

confidence: 99%

Fabrication of vanadium dioxide thin films and application of its thermochromic and photochromic nature in self-cleaning: A review

Lukong

Ukoba

Jen

2022

Energy & Environment

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Vanadium dioxide (VO2) and many binary compounds of vanadium can transform from a semiconducting state to a metallic state under the influence of temperature or light. The transformation is triggered by modifications in the oxide's crystalline structure, often initiated by changes in its light-sensing and electrical attributes. This ability makes them suitable for smart coatings, electronic switches, self-cleaning surfaces, window glass, and many more. These potential applications have prompted tremendous interest in VO2thin films, focusing on their fabrication and application. This article reviews current fabrication methods for VO2thin films, the potential application of their thermochromic and photochromic properties in self-cleaning coatings, the challenges facing their application, and some remedies devised to address the challenges. The various challenges facing its different synthesis and fabrication methods are also highlighted. First, the different transitional phases of VO2and routes to transform from one stage to the other are presented.

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Section: Methods To Synthesize and Deposit Vo2thin Filmsmentioning

confidence: 99%

Fabrication of vanadium dioxide thin films and application of its thermochromic and photochromic nature in self-cleaning: A review

Lukong

Ukoba

Jen

2022

Energy & Environment

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“…To the best of our knowledge, this is the first time, we have attempted to grow optimum quality VO 2 films by RF magnetron sputtering of V 2 O 5 target in pure Argon (4N pure) gas atmosphere without any oxygen or postdeposition (annealing) processing. It is to be mentioned that in all the studies [29,[35][36][37], whether PLD or sputtering, the growth of VO 2 film has been carried out from the commercial oxide targets (VO 2 , V 2 O 3 , and V 2 O 5 ). But here, we have tried to optimize VO 2 thin films from a prepared V 2 O 5 target by sintering the commercial V 2 O 5 powder.…”

Section: Introductionmentioning

confidence: 99%

Effect of Ar pressure on phase transition characteristics and charge transport mechanism in VO₂ films grown by RF sputtering of V₂O₅

Singh,

Siwach

2024

Phys. Scr.

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In this study, we report the growth and characterization of VO2films deposited on YSZ (001) substrate employing RF magnetron sputtering of vanadium pentoxide (V2O5) target in pure Ar ambient. The VO2 film growth has been carried out at ~700 C for ~15 minutes at ~100 W RF power with a flow rate of ~20 sccm at Ar gas deposition pressure of ~3, ~6, ~20, and ~40 mTorr. X-ray diffractometry and Raman spectroscopy show that the nearly pure VO2 phase achieved at lower Ar pressure, e.g., ~3 and ~6 mTorr, transforms into a multiphase V-O system at ~20 and ~40 mTorr. This pattern is also supported by the electrical transport measurements through the occurrence of hysteretic IMT in films grown at ~3 and ~6 mTorr and the absence of this signature in these films deposited at ~20 and ~40 mtorr Ar pressure. The most pronounced hysteresis is seen in the Y6 film, and therefore, the optimum growth pressure in the present study is ~6 mTorr. The suppression of IMT in Y20 and Y40 is attributed to the appearance of other V-O phases, which smear out the phase transition. The activation energy at the beginning and end of the IMT is estimated from the Arrhenius fit to the ρ-T data on both sides of the transition is found to be ~0.081 eV (~0.223 eV) in metallic (insulating) phase at ~3 mTorr pressure which increases to ~0.102 eV (~0.311 eV) for ~6 mTorr film in the cooling cycle. The low temperature (120K≤T≤300K) transport conduction in all VO2 films is governed by Efros-Shklovskii’s variable range hopping (ES-VRH) mechanism with a systematic relation with phase transition characteristics. Thus, Argon gas pressure plays a critical role in growth and brings out the feasibility of VO2 films growth by RF sputtering of V2O5 target under Argon ambient.

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Crystal Structure, Surface Topography, Surface Morphology and Optical Properties of DC Magnetron Sputtered VO₂ Thin Films using VO₂ Target

Cited by 2 publications

References 2 publications

Fabrication of vanadium dioxide thin films and application of its thermochromic and photochromic nature in self-cleaning: A review

Fabrication of vanadium dioxide thin films and application of its thermochromic and photochromic nature in self-cleaning: A review

Effect of Ar pressure on phase transition characteristics and charge transport mechanism in VO₂ films grown by RF sputtering of V₂O₅

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Crystal Structure, Surface Topography, Surface Morphology and Optical Properties of DC Magnetron Sputtered VO2 Thin Films using VO2 Target

Cited by 2 publications

References 2 publications

Fabrication of vanadium dioxide thin films and application of its thermochromic and photochromic nature in self-cleaning: A review

Fabrication of vanadium dioxide thin films and application of its thermochromic and photochromic nature in self-cleaning: A review

Effect of Ar pressure on phase transition characteristics and charge transport mechanism in VO2 films grown by RF sputtering of V2O5

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Crystal Structure, Surface Topography, Surface Morphology and Optical Properties of DC Magnetron Sputtered VO₂ Thin Films using VO₂ Target

Effect of Ar pressure on phase transition characteristics and charge transport mechanism in VO₂ films grown by RF sputtering of V₂O₅