Synthesis of vanadium dioxide thin films on conducting oxides and metal–insulator transition characteristics

Cui, Yanjie; Wang, Xinwei; Zhou, You; Gordon, Roy G.; Ramanathan, Shriram

doi:10.1016/j.jcrysgro.2011.10.025

Cited by 29 publications

(14 citation statements)

References 19 publications

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“…84 Precise control over the orientation of the vanadium dioxide nanowires is beginning to emerge at the current stage, however, further work is still needed to control the position and orientation for integrating the 1D nanowires into a designed system. Due to the heteroepitaxial interface between VO 2 (R) and the sapphire planes, 85 the single crystalline VO 2 nanowires could be epitaxially grown along the [100] direction with a unique growth orientation relationship with respect to the planes of the sapphire substrates. High structural correlations exist between the VO 2 (M) and the sapphire substrates, both of which have the close-packed arrangements of oxygen atoms for (010) VO 2 and (0001) sapphire.…”

Section: New Solid-state Reaction Pathway To Vo 2 (M)mentioning

confidence: 99%

Design of vanadium oxide structures with controllable electrical properties for energy applications

2013

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The electrical properties of inorganic materials has been a long-standing pursued research topic, and successfully controlling the electrical property of an inorganic material has attracted significant attention for a wide range of energy-related applications, covering energy storage, energy conversion and energy utilization. During the few past decades, vanadium oxides have been studied to gain a clear picture of how microstructural characteristics generating the e-e correlations influence the electronic structure of a material, through which the charge concentration, electrical conductivity as well as the metal-insulator transition (MIT), etc., can be precisely controlled, giving promising signs for constructing energy-related devices. In this review, we present an extensive review of the engineering of the microstructures of vanadium oxides with control of their electrical properties, and with attempts to rationally construct energy-related devices, such as aqueous lithium ion batteries, supercapacitors for energy storage, and thermoelectric generators for energy conversion. Furthermore, the MIT performance of vanadium oxides has also seen tremendous advantages for the applications of "smart windows" and magnetocaloric refrigerators for energy utilization. Collectively, progresses to date suggest that in vanadium oxide systems, the electrical properties, including electrical conductivity, carrier concentrations, and the MIT performance, were all strongly dependent on the microstructural characteristics at the atomic scale, which have presented extensive promising energy applications covering energy storage, energy conversion and energy utilization.

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Section: New Solid-state Reaction Pathway To Vo 2 (M)mentioning

confidence: 99%

Design of vanadium oxide structures with controllable electrical properties for energy applications

2013

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“…As suggested from the XRD profile ( Fig. 1), there may be a diffusion of Na in to the VO 2 films [23] shows a T C of about 54.5  C. The low T C of VO 2 films indicates that the MIT upon cooling undergoes a significant lagging. In other words, as reported also by H. Zhang et al [24], the deposited films would require large additional driving forces in order to change from tetragonal to monoclinic phase.…”

Section: Fig3cmentioning

confidence: 91%

Effect of substrate temperature on the structure and the metal insulator transition in pulsed laser deposed V02\ films on soda lime glass

Diallo

Ndiaye

Ngom

et al. 2015

J Opt

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In this paper, we report the effect of soda lime substrate deposition temperature (T s ) on the crystal structure and the metal insulator transition of VO 2 thin films. Samples were deposited at substrate deposition temperature ranging from 450 to 600 0 C by pulsed-laser deposition and characterized by x-ray diffraction and UV-VIS spectrophotometer. At a substrate temperature of 550°C, the VO 2 (100) reflection dominate the spectrum showing a change in crystalline grains orientation. The highest transition temperatures of 74 o C with the lowest hysteresis width of 11 o C were obtained on the same sample grown at a substrate deposition temperature of 500 o C and also corresponding to the largest grains size of a value of 350 nm.

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“…Розробка стабільних об'ємних критичних терморезисторів на основі компонента з фазовим переходом метал-напівпровідник (ФПМН) важлива для ряду галузей електроніки та електротехніки, де плівкові структури не можуть бути використані через порівняно малі робочі струми [1,2]. Невирішеною до теперішнього часу проблемою технології терморезисторів, яка стримує їх виробництво і використання, є нестабільність параметрів матеріалу.…”

Section: вступunclassified

Electrical Conductivity of Polymer Composite Pp-Vo2

Колбунов¹,

Вашерук²

2018

SEMST

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В. Р. Колбунов, О. В. Вашерук Анотація. В роботі представлені результати дослідження електропровідності при постійному струмі зразків полімерного композиту поліпропілен-діоксид ванадію з об'ємною часткою VO 2 від 0,1 до 0,7. Показано, що електропровідність композитів носить перколяційний характер. Перколяційний перехід знаходиться в області 0.3-0,35 об'ємних часток діоксиду ванадію. Вольт-амперні характеристики зразків композиту із вмістом VO 2 більше 0,35 мають S-подібну форму. У залежності електричного опору зразків композитів від температури виявлено стрибкоподібне зменшення опору в області температури фазового переходу напівпровідник-метал в VO 2. Особливості електропровідності полімерних композитів PP-VO 2 , що виявлені у цій роботі, дозволяють робити висновки про можливість створення на їх основі критичних терморезистивних елементів. Ключові слова: полімерний композит, VO 2 , електропровідність, температурна залежність опору, ВАХ

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Synthesis of vanadium dioxide thin films on conducting oxides and metal–insulator transition characteristics

Cited by 29 publications

References 19 publications

Design of vanadium oxide structures with controllable electrical properties for energy applications

Design of vanadium oxide structures with controllable electrical properties for energy applications

Effect of substrate temperature on the structure and the metal insulator transition in pulsed laser deposed V02\ films on soda lime glass

Electrical Conductivity of Polymer Composite Pp-Vo2

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