The electrical properties of vanadium oxide films.

Li, Wing, Andy,

January 1978

Thesis--M. Phil., University of Hong Kong.

The electrical properties of vanadium oxide films

Li, Wing, Andy, 李榮

January 1978

published_or_final_version / Physics / Master / Master of Philosophy

Sputtering (Physics)

Vanadium oxide.

Amorphous substances.

VOx /TiO2 anode catalyst for oxidation of CH4 containing 5000 ppm H2S in SOFC

Garcia Rojas, Alfonso Andres

Unknown Date

No description available.

Garfting

Vanadium Oxide

SOFC

H2S

Perovskite

Enhanced Li-ion intercalation properties of vanadium oxides /

Wang, Ying,

January 2006

Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 156-167).

Structure and reactivity of titania-supported molybdenum and vanadium oxides

Tahir, Saad Flamerz

January 1987

Vanadium and molybdenum oxide catalysts have been prepared on different Ti02 supports by a variety of methods. Solutions of VOC13, VO(O'Bu)3 and MoOC14 were used to graft VOX and MoOX monolayers onto the supports in a single treatment. The other methods were intended to produce more than one monolayer (i. e. aqueous impregnation and multiple treatments of VOC13 and VO(O1Bu)3 ). TPR and Raman spectroscopy showed the formation above the monolayer of a phase denoted as disordered vanadium oxide, which has the same reducibility as the monolayer species but which has a band in the Raman spectrum at 995 cm-l. Raman spectroscopy also showed the formation of a disordered molybdenum oxide phase. With supports which contained phosphorus and potassium as impurities, TPR and Raman spectoscopy indicated a potassium-containing vanadium oxide, which was difficult to reduce and which showed no band at 995 cm-1. "Paracrystalline" V205 and MoO3 are formed when the oxide content exceeds four monolayers. XPS measurements confirm the dispersion of MOX species (M = V, Mo) on the surface of the support in the monolayer region; they also show that disordered and paracrystalline oxide phases occupy a limited area of the monolayer surface, but could not distinguish between them. ESR results showed 95% of the supported vanadium in the oxidation state +5. Phosphorus and potassium impurities in (or on) the TiO2 support influence the structure and catalytic properties of the VOX monolayer phase. In the case of catalysts made on supports with low impurities, activities in butadiene oxidation and isopropanol decomposition are principally due to the monolayer species and little contribution is made by the disordered or paracrystalli ne V205, while in the catalysts made on the supports with relatively high level of impurities, the activities in both reactions increase with V205 content in the region of one to four monolayers. MoOX catalysts showed low activities and selectivities in butadiene oxidation.

546

Metal-semiconductor transitions in nanoscale vanadium dioxide thin films, subwavelength holes, and nanoparticles /

Donev, Eugenii U.

January 2008

Thesis (Ph. D. in Physics)--Vanderbilt University, Dec. 2008. / Title from title screen. Includes bibliographical references.

Synthesis of strongly correlated oxides and investigation of their electrical and optical properties

Channam, Venkat Sunil Kumar

14 September 2017

Strongly correlated oxides are studied widely for the host of unique applications, such as hightemperature superconductivity, colossal magneto resistance, exotic magnetic, charge and orbital ordering, and insulator-to-metal transitions. Transitional metal oxides which form the majority of the correlated oxide systems and oxides of Vanadium, especially VO2 and V2O5 are the two most favourite systems among researchers for several applications. In this thesis, the growth and characterization of VO2 and V2O5 are discussed along with a special focus on the optical property, especially thermochromic properties. Traditionally SMT behaviour and Infrared reflectively was the focus area for VO2 research, and its only until recently that VO2 is being treated as a much more complex system and investigated as highly responsive naturally disordered metamaterial near the phase transition temperature where the material exhibits semiconducting and metallic phase co-existence. Since each phase of VO2 has a distinct optical and electrical properties, controlling the extent of phase transitions by accurate temperature modulation, enables exploitation of the material for new properties like emissivity modulation in the NIR region and for creating IR visible reversible and rewritable patterns. V2O5 is traditionally seen as a high TCR material and regarded as material of choice for application ranging from catalysis, gas sensors to lithium batteries. In this study, however we focus on the optical properties of the material, especially the visible range thermochromic nature of V2O5 coatings synthesised by oxidative annealing of MOCVD grown VOx coatings. The impact of doping and selective oxygen vacancy generation on the thermochromic property are discussed

Vanadium oxide

Chemical vapour deposition

Semiconductor to metal transition

Thermochromism

Studies on Transition Metal Oxide Catalysts for Waste Gas Treatment / 排ガス処理用遷移金属酸化物触媒に関する研究

Kuma, Ryoji

23 March 2021

京都大学 / 新制・論文博士 / 博士(工学) / 乙第13403号 / 論工博第4189号 / 新制||工||1761(附属図書館) / (主査)教授 田中 庸裕, 教授 江口 浩一, 教授 阿部 竜 / 学位規則第4条第2項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

XAFS

catalyst

NH3-SCR

vanadium oxide

molybdenum oxide

500

Vanadium Oxide Anions Clusters: Their Abundances, Structures and Reactions with SO₂

Wyrwas, Richard Ben, Jr.

22 November 2004

Early transition metal oxide clusters have been a focus of study for several years. The production of vanadium oxide cluster anions in a pulsed helium flow reactor provides a relatively precise way of introducing defect sites and controlling the oxidation state of the vanadium atoms. The composition of the clusters can be changed from the V2O5 stoichiometry, where the vanadium atom is in a +5 oxidation state, to more reduced stoichiometries yielding a mixture of oxidation states containing atoms in the +2 oxidation state. The subsequent addition of reactant gases such as H2O and SO2 yields very intense adsorption reactions as well as a demonstration of the robustness of particular defect free clusters. For example, the cluster has been identified as a defect free cluster where all vanadium atoms are in the +5 oxidation state and all oxygen atoms are predicted to be in the 2- state. The cluster has been shown to not adsorb SO2- while clusters in a reduced oxidation state, such as and readily adsorb one or more SO2 molecules. The adsorption process has been shown to be size dependent, with the smallest monovanadium oxide anions being the most reactive.

Time-of-flight mass spectrometry

Cluster reactivities

Carbon anion clusters

Gas phase cluster reactions

Sulfuric acid production

Vanadium oxide clusters

Metal oxide cluster anions

Vanadium oxide Synthesis Experiments

Surface active agents Experiments

Vanadium oxide Experiments

Preparation and characterization of vanadium oxides on carbon fiber paper as electrodes for pseudocapacitors

Cromer, Cynthia Eckles

10 April 2013

Supercapacitors are important electrochemical energy storage devices for microelectronic and telecommunication systems, electric cars, and smart grids. However, the energy densities of existing supercapacitors are still inadequate for many applications. Vanadium oxides have been studied as viable supercapacitor alternatives, with varying results. Methods are often complicated or time-consuming, and electrode fabrication often includes carbon powder and binder. The objective of this work was to study the effect of processing conditions on specific capacitance of supercapacitors based on vanadium oxides coated on carbon fiber papers. This study was conducted to form easily-fabricated compounds of vanadium oxides which could offer promise as pseudocapacitor material, and to nucleate these compounds directly onto inexpensive carbon fiber without binder. The incipient wetness impregnation technique was used to fabricate the electrodes. Electrochemical performance of the resulting electrodes was tested in a Swagelok-type electrochemical two-electrode cell, and the electrodes were characterized by XRD and SEM. Interesting nanofeatures were formed and the vanadium oxides exhibited pseudocapacitance at a respectable level.

Carbon fiber paper

Pseudocapacitor

Vanadium oxide

Incipient wetness impregnation

Vanadium oxide

Energy storage Materials

Supercapacitors

Fuel cells