Influence of heat treatment on the properties of tin oxide nanoparticles: A potential material for environmental remediation applications

Manmeet Kaur, Dixit Prasher, Ranjana Sharma
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Abstract

Metal oxides have gained a growing interest in the field of material science owing to their size and shape dependent physiochemical properties. Tin oxide (SnO2) is considered as a multifaceted material with its widespread applications such as oxidation catalysis, energy harvesting, bio-imaging, gas sensing, storage devices and many more. This study reports the synthesis of SnO2 nanoparticles derived via sol-gel route. To observe the effect of thermal treatment on the grown material, the samples were subjected to calcination at different temperature ranging from 350 °C to 550 °Cfor about 4 hrs. The structural, compositional, morphological and optical properties of Tin oxide were studied by XRD, EDAX, FESEM, and UV-Vis spectroscopic analysis respectively. The XRD pattern consists only SnO2 peaks with preferred orientation along (110) plane. The crystallite size increases with higher calcination temperature and is found in the range of 3-15 nm. All the peaks corresponding to SnO2 matches with the standard data indicating the growth of good quality single phase material. Compositional data reveals that that grown material manifested in required stoichiometric ratio of SnO. Scanning electron micrographs show uniform growth of SnO2 nanoparticles with particle size ranging from 10-20 nm. The energy band gap of the SnO2 calculated by optical studies was 3.1eV and 3.0 eV for 450 °Cand 550 °Crespectively. The calculated band gap lies in the visible region of the solar spectrum which could be beneficial for the enhanced photocatalytic performance of the SnO2 nanoparticles.
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热处理对氧化锡纳米颗粒性能的影响:一种潜在的环境修复材料
金属氧化物由于其大小和形状依赖的物理化学性质,在材料科学领域引起了越来越多的兴趣。氧化锡(SnO2)被认为是一种多面材料,具有广泛的应用,如氧化催化,能量收集,生物成像,气体传感,存储器件等。本文报道了溶胶-凝胶法制备SnO2纳米颗粒。为了观察热处理对生长材料的影响,将样品在350 ~ 550℃的不同温度下煅烧约4小时。采用XRD、EDAX、FESEM和UV-Vis光谱分析对氧化锡的结构、组成、形貌和光学性能进行了研究。XRD谱图仅由(110)平面上择优取向的SnO2峰组成。晶粒尺寸随煅烧温度的升高而增大,在3 ~ 15 nm范围内。SnO2对应的峰均符合标准数据,表明生长出了质量良好的单相材料。成分数据表明,生长的物质表现为所需的SnO化学计量比。扫描电镜显示,SnO2纳米颗粒生长均匀,粒径在10 ~ 20 nm之间。在450°c和550°c温度下,SnO2的能带隙分别为3.1eV和3.0 eV。计算得到的带隙位于太阳光谱的可见区,这有利于增强SnO2纳米颗粒的光催化性能。
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