Synthesis and Characterization of V2O5 Nanorods Using Hydrothermal Method for Energy Application

Q3 Engineering
Rupin Ranu, K. Chavan, S. Desarada, V.K. Gade, S.L. Kadam
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Abstract

Nanomaterials are very useful in energy harvesting and energy storage devices. Morphological features play a vital role in energy storage devices. Supercapacitors and batteries are examples of energy storage devices. The working of a supercapacitor is decided by the nature of the microstructure and other features of the electrode material. Vanadium Pentaoxide (V25) is one of the promising materials due to its attractive features, such as band gap, multiple oxidation state, and large conductivity transition from semiconducting to conducting domain. This study aimed to perform the tuning of structural, optical and morphological properties of V2O5 nanomaterials using the hydrothermal method. A low-cost hydrothermal method was used in this work. Hydrothermal synthesis was carried out at different concentrations of Ammonium Metavanadate (NH4VO3), varying from 0.06 M, 0.08 M, and 0.1 M in the aqueous medium. Moreover, the pH of the solution was maintained at 4 using drop-wise addition of H2SO4. Hydrothermal synthesis was carried out at 160° for 24 hours. The synthesized precipitate was annealed at 700° for 7 hours in ambient air. Structural, optical, morphological, and elemental probing was carried out. XRD revealed the formation of monoclinic crystalline phase formation of V2O5. Crystallite size increased with an increase in the concentration of vanadium precursor. The band gap obtained using UV-Vis spectroscopy decreased upon an increase in concentration. SEM micrographs displayed nanosheet and nanorod-like distorted morphology. The presence of vanadium and oxygen was noticed in the EDS study. Nanoparticles with attractive features are very useful as an electrode material for supercapacitors. Upon changing concentration, we can change the band gap of the material, adding an extra edge in the use of these materials.
利用水热法合成和表征用于能源应用的 V2O5 纳米棒
纳米材料在能量收集和能量储存装置中非常有用。形态特征在储能装置中起着至关重要的作用。超级电容器和电池是能量存储设备的例子。超级电容器的工作是由电极材料的微观结构和其他特性决定的。五氧化钒(V25)具有带隙、多氧化态、从半导体到导电的大电导率转变等特点,是一种很有前途的材料。本研究旨在利用水热法对V2O5纳米材料的结构、光学和形态特性进行调谐。本研究采用了低成本的水热法。在不同浓度的偏氰酸铵(NH4VO3)水溶液中,分别为0.06 M、0.08 M和0.1 M,进行水热合成。此外,通过滴加H2SO4将溶液的pH维持在4。160°水热合成24小时。将合成的析出物在室温700℃下退火7小时。进行了结构、光学、形态和元素探测。XRD显示V2O5形成单斜晶相。随着钒前驱体浓度的增加,晶粒尺寸增大。紫外可见光谱法得到的带隙随着浓度的增加而减小。扫描电镜显微照片显示纳米片和纳米棒状扭曲形貌。在EDS研究中发现了钒和氧的存在。纳米粒子具有吸引人的特性,是非常有用的超级电容器电极材料。当浓度改变时,我们可以改变材料的带隙,在这些材料的使用中增加一个额外的边缘。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Micro and Nanosystems
Micro and Nanosystems Engineering-Building and Construction
CiteScore
1.60
自引率
0.00%
发文量
50
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