Investigation of Cobalt Substitution on the Structural, Optical Band Gap, and Photocatalytic Dye Degradation Properties of Spray Deposited SnO2Thin Films

Q3 Biochemistry, Genetics and Molecular Biology
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Abstract

Pure and cobalt substituted tin oxide thin films are successfully formed on a glass substrate using the simple spray pyrolysis technique. XRD patterns reveal the polycrystalline nature of the samples with tetragonal rutile structure. The shift in X-ray diffraction peak to a higher 2θ value and its subsequent contraction of the SnO2 rutile lattice along the c-axis manifests the infusion of the guest cobalt ions. Crystallite size and microstrain values are found to vary with cobalt substitution. SEM analysis shows the uniform dispersion of the nanoparticles in the prepared thin films. The optical band gap values are found to narrow down with cobalt substitution from 4.04 eV–3.93 eV. Photoluminescence study hints at the presence of intermediate states within the forbidden energy band gap of SnO2. Photocatalytic dye degradation of Methylene blue (MB) highlights the role of cobalt with a high photocatalytic activity of 86 % compared to other investigated thin films.
钴取代对喷射沉积SnO2薄膜结构、光学带隙和光催化降解染料性能的影响
采用简单的喷雾热解技术,在玻璃基板上成功地形成了纯氧化锡薄膜和钴取代氧化锡薄膜。XRD分析结果表明,样品具有四方金红石结构,具有多晶性。x射线衍射峰向较高2θ值的移动以及随后SnO2金红石晶格沿c轴的收缩表明客体钴离子的注入。晶粒尺寸和微应变值随钴取代量的变化而变化。SEM分析表明纳米颗粒在制备的薄膜中分布均匀。钴取代后,光学带隙值从4.04 eV缩小到3.93 eV。光致发光研究提示在SnO2禁能带隙内存在中间态。在光催化降解亚甲基蓝(MB)染料过程中,钴薄膜的光催化活性高达86%。
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来源期刊
CiteScore
4.80
自引率
0.00%
发文量
256
期刊介绍: Biointerface Research in Applied Chemistry is an international and interdisciplinary research journal that focuses on all aspects of nanoscience, bioscience and applied chemistry. Submissions are solicited in all topical areas, ranging from basic aspects of the science materials to practical applications of such materials. With 6 issues per year, the first one published on the 15th of February of 2011, Biointerface Research in Applied Chemistry is an open-access journal, making all research results freely available online. The aim is to publish original papers, short communications as well as review papers highlighting interdisciplinary research, the potential applications of the molecules and materials in the bio-field. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible.
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