Kanty Maryani, Nelly Safitri Anwari, W. N. Safitri, A. Hardian, Ervina Dwi Inggarwati, Anton Prasetyo
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Therefore, in this work, V-doped Bi4Ti3O12 (Bi4Ti2.95V0.05O12) was prepared through the molten salt NaCl/KCl method at various synthesis temperatures: 700, 750, and 800?C and the effect of temperature synthesized on (a) structural (b) morphological, and (c) band gap energy were studied. These studies used X-ray diffraction data (diffractogram), scanning electron microscope (SEM) and diffuse reflectance ultraviolet-visible spectroscopy. The diffractograms showed that the target compound was successfully obtained at all temperature synthesis. The crystallographic data indicated that temperature synthesis determined the lattice parameter values. However, there are no clear trend changes that is possibly due to changes in the valence of the V atom. The synthesis temperature also causes increasing the crystallite size but does not affect the crystallinity samples. SEM images showed that all samples had plate-like/sheets morphology and the particle size became larger at higher temperature. It indicated that the particle growth rate was faster than nucleation rate. Meanwhile, the result of Kubelka-Munk calculation showed that all samples had relatively same band gap energy value (Eg(1) was ~ 2.90, and Eg(2) was ~1.85 eV.","PeriodicalId":36437,"journal":{"name":"Communications in Science and Technology","volume":"134 4","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"The effect of synthesis temperature on structural, morphological, and band gap energy of plate-like Bi4Ti2.95V0.05O12 prepared by molten NaCl/KCl salt method\",\"authors\":\"Kanty Maryani, Nelly Safitri Anwari, W. N. Safitri, A. 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引用次数: 0
摘要
据报道,掺杂钒(V)的 Bi4Ti3O12 化合物具有良好的光催化剂特性;然而,仍需努力通过各种策略(如控制形态和粒度)来提高光催化剂的能力。据报道,熔盐法是成功合成具有板状/片状形态的 Bi4Ti3O12 化合物的简单合成方法之一,并具有良好的光催化剂活性。合成温度是影响熔盐法获得的颗粒化合物的因素之一。因此,本研究采用 NaCl/KCl 熔盐法,在不同的合成温度下制备了掺 V 的 Bi4Ti3O12(Bi4Ti2.95V0.05O12):研究了合成温度对 (a) 结构 (b) 形貌和 (c) 带隙能的影响。这些研究使用了 X 射线衍射数据(衍射图)、扫描电子显微镜(SEM)和漫反射紫外-可见光谱。衍射图显示,目标化合物在所有温度下都能成功合成。晶体学数据表明,温度合成决定了晶格参数值。不过,没有明显的变化趋势,这可能是由于 V 原子的价态发生了变化。合成温度也会导致晶体尺寸增大,但不会影响样品的结晶度。扫描电子显微镜图像显示,所有样品都具有板状/片状形态,且温度越高,颗粒尺寸越大。这表明颗粒的生长速度快于成核速度。同时,Kubelka-Munk 计算的结果表明,所有样品都具有相对相同的带隙能值(Eg(1) 约为 2.90,Eg(2) 约为 1.85 eV)。
The effect of synthesis temperature on structural, morphological, and band gap energy of plate-like Bi4Ti2.95V0.05O12 prepared by molten NaCl/KCl salt method
Vanadium (V)-doped Bi4Ti3O12 compound is reported to have good photocatalyst properties; however, efforts still need to improve the ability of the photocatalyst through various strategies, such as controlling the morphology and particle size. The molten salt method is one of the simple synthesis methods reported successful in synthesizing Bi4Ti3O12 compounds with plate-like/sheet morphology and reported having good photocatalyst activity. One of factor influenced to particle compound obtained by molten salt method is synthesis temperature. Therefore, in this work, V-doped Bi4Ti3O12 (Bi4Ti2.95V0.05O12) was prepared through the molten salt NaCl/KCl method at various synthesis temperatures: 700, 750, and 800?C and the effect of temperature synthesized on (a) structural (b) morphological, and (c) band gap energy were studied. These studies used X-ray diffraction data (diffractogram), scanning electron microscope (SEM) and diffuse reflectance ultraviolet-visible spectroscopy. The diffractograms showed that the target compound was successfully obtained at all temperature synthesis. The crystallographic data indicated that temperature synthesis determined the lattice parameter values. However, there are no clear trend changes that is possibly due to changes in the valence of the V atom. The synthesis temperature also causes increasing the crystallite size but does not affect the crystallinity samples. SEM images showed that all samples had plate-like/sheets morphology and the particle size became larger at higher temperature. It indicated that the particle growth rate was faster than nucleation rate. Meanwhile, the result of Kubelka-Munk calculation showed that all samples had relatively same band gap energy value (Eg(1) was ~ 2.90, and Eg(2) was ~1.85 eV.