Effect of crystallite size reduction and widening of optical phonon vibration due to AC variation on ZnO/Mg composites in implementation of methylene blue degradation.

IF 2.7 3区化学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Photochemical & Photobiological Sciences Pub Date : 2024-09-01 Epub Date: 2024-08-30 DOI:10.1007/s43630-024-00624-4

Rezki Amelia Putri, Dahlang Tahir, Heryanto

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Abstract

The fashion industry's reliance on dyes contributes significantly to environmental pollution, which disturbs the ecological balance. To address this issue, we used ZnO/Mg combined with activated carbon (AC) at various concentrations (0.1 g, 0.5 g, and 1 g), which were synthesized via sol-gel and mechanical alloying processes. The analysis of X-ray diffraction shows reduced crystallite size, with d-spacing change ( $\to$ d $\leftarrow$ ) for ZnO/Mg/AC (0.5 g) and ( $\leftarrow$ d $\to$ ) for ZnO/Mg/AC (1 g), respectively. The results of the IR spectrum indicated the main vibrations is MgO and Zn-O bonds at wave numbers 673 cm^-1 and 467 cm^-1. It was found that ZnO/Mg/AC (1 g) shows high degradation performance $D %$ : 86.15% as a consequence of reduced crystallite size: 22.67 nm, decreased skin depth: 0.002 cm, widening of optical phonon vibration ( $Δ (LO - TO)$ ): 252 cm^-1 and increased $E_{g}$ : 4.6 eV as a function AC variation. Moreover, the finding of high photocatalytic performance $\geq$ 80% for 0.25 mL MB dissolved in 250 mL distilled water is obtained from all composites. Based on these results, ZnO/Mg/AC shows potential as a photocatalyst to solve the MB waste problem.

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氧化锌/镁复合材料在亚甲基蓝降解过程中因交流电变化而导致的晶体尺寸减小和光学声子振动扩大的影响。

时装业对染料的依赖极大地加剧了环境污染，破坏了生态平衡。为解决这一问题，我们采用不同浓度（0.1 克、0.5 克和 1 克）的 ZnO/Mg 与活性炭（AC），通过溶胶-凝胶和机械合金化工艺合成。X 射线衍射分析表明，ZnO/Mg/AC（0.5 克）和 ZnO/Mg/AC（1 克）的晶粒尺寸减小，d 距分别为（ → d ← ）和（ ← d → ）。红外光谱结果表明，主要振动是波数为 673 cm-1 和 467 cm-1 的 MgO 和 Zn-O 键。研究发现，ZnO/Mg/AC（1 g）具有较高的降解性能 D %：86.15%，这是因为其晶体尺寸减小：22.67 nm，表皮深度减小：0.002 cm，光学声子振动（Δ ( LO - TO )：252 cm-1，E g：4.6 eV 随交流电变化而增加。此外，在 0.25 毫升甲基溴溶于 250 毫升蒸馏水的情况下，所有复合材料的光催化性能都达到了 80%。基于这些结果，ZnO/Mg/AC 显示出作为光催化剂解决甲基溴废物问题的潜力。

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