碳掺杂ZnO的制备、表征及其可见光下光催化剂效能

The Dhaka University Journal of Science Pub Date : 2023-10-18 DOI:10.3329/dujs.v71i2.69121

Mahbuba Zaman, Nasrin Akter, Md Ataur Rahman, Md Mufazzal Hossain

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摘要

制备了碳掺杂ZnO (C-ZnO)，并用XRD、SEM、EDX和FT-IR对其进行了表征。由于带隙的收缩，ZnO晶格中的氧被碳取代，大大提高了其在可见光下的光学灵敏度，从而提高了电子-空穴分离的有效性。SEM图像显示，C-ZnO催化剂的表面与未掺杂ZnO的表面不同。对样品中存在的元素进行了EDX分析，证实制备的样品含有Zn, O和C原子。XRD分析证实了ZnO作为纤锌矿的存在，由于碳在取代位上的存在，其峰位几乎没有偏离。FT-IR分析也支持这些结果。在可见光照射下，制备的C-ZnO对亚甲基蓝(MB)的光催化效率优于未掺杂的ZnO。在300℃的煅烧温度下，得到2% C掺杂ZnO时，MB的光降解效率最高。达卡大学学报(自然科学版)，71(2):127- 133,2023 (7)

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Preparation and Characterization of Carbon Doped ZnO and Its Effectiveness as Photocatalyst under Visible Light

Carbon-doped ZnO (C-ZnO) was prepared and characterized by XRD, SEM, EDX and FT-IR spectroscopy. The substitution of oxygen in the lattice of ZnO by carbon greatly extends its optical sensitivity in the visible light due to the band gap’s shrinkage, which promotes the effectiveness of electron-hole separation. SEM images showed that the surface of C-ZnO catalyst is different from that of undoped ZnO. Analysis of the elements present in the sample was done by EDX which affirms that the prepared sample contains Zn, O and C atoms. The existence of ZnO as wurtzite is confirmed by XRD analysis exhibiting little deviation of the peak position due to the presence of carbon in substitutional sites. FT-IR analysis also supports these results. Under visible light irradiation, the prepared C-ZnO shows better photocatalytic efficiency on methylene blue (MB) than un-doped ZnO. The optimum photodegradation efficiency of MB has been observed when 2 percent C-doped ZnO obtained at 300˚C calcination temperature. Dhaka Univ. J. Sci. 71(2): 127-133, 2023 (July)

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The Dhaka University Journal of Science

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