聚苯胺负载的g-C3N4/CeO2荧光化学传感器用于选定的重金属和硝酸盐离子的测定

IF 0.4 Q4 CHEMISTRY, MULTIDISCIPLINARY Acta Chemica Iasi Pub Date : 2022-01-01 DOI:10.47743/achi-2022-1-0003
Hussen Abdu, D. Isabel, Adgo Tsegaye Abebaw, Taddesse Mengesha Abi
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引用次数: 0

摘要

在世界范围内,水和食品系统中有毒重金属和硝酸盐离子污染的增加已成为一个核心问题。因此,开发实时、高灵敏度、高选择性、简单的技术,以超低浓度检测水和食物中的硝酸盐和有毒重金属离子(汞、铜和砷),对于确保其安全交付给消费者至关重要。本研究采用原位聚合的方法,成功制备了一种基于聚苯胺负载的g- c3n4 / ceo2纳米复合材料的高效荧光化学传感器,用于选择性重金属和硝酸盐离子。采用粉末x射线衍射(XRD)、傅里叶变换红外光谱(FT-IR)、扫描电镜(SEM)、光致发光(PL)和紫外可见光谱(UV-Vis)对合成的纳米复合材料的结构、形貌和光学性能进行了表征。在不含金属离子和硝酸盐离子的情况下,纳米复合材料具有较高的荧光强度。然而,碱性位点与金属和硝酸盐离子的强配位,通过光致电子转移和静态猝灭导致荧光猝灭,从而对金属和硝酸盐离子进行定性和定量检测。该荧光化学传感器对砷(III)、铜(II)、汞(II)和硝酸盐离子具有高选择性。该传感器对铜(II)离子比砷(III)、汞(II)和硝酸盐离子更敏感,因为(II)离子对砷(III)、汞(II)和硝酸盐离子的灵敏度分别为(3.25 × 10.4 M -1)、8.12 × 10.3 M -1、2.93 × 10.4 M -1和3.19 × 10.2 M -1,而对铜(II)离子的灵敏度为(3.25 × 10.4 M -1)。该传感器还应用于可口可乐、自来水、牛奶和生菜样品中砷(III)、铜(II)、汞(II)和硝酸盐离子的测定。牛奶和生菜中汞和硝酸盐的浓度分别为56.66 μM和3.18 mM,超过了世界卫生组织规定的允许限值(汞和硝酸盐的浓度分别为0.1 μM和5.9 μM)。
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POLYANILINE SUPPORTED g-C3N4/CeO2 FLUORESCENT CHEMOSENSOR FOR SELECTED HEAVY METAL AND NITRATE IONS DETERMINATION
: The increasing of toxic heavy metal and nitrate ions contamination in water and food systems worldwide has become a core problem. Therefore, the development of real-time, highly sensitive and selective, simple technique for nitrate and toxic heavy metals ions (mercury, copper and arsenic) detection in water and food at ultralow concentrations are important for maintaining their safe deliveries to consumers. A highly efficient fluorescent chemosensor-based on polyaniline supported g-C 3 N 4 /CeO 2 nanocomposite for selective heavy metal and nitrate ions have been successfully developed in this research, by in situ polymerization method. The structural, morphological, and optical properties of the synthesized nanocomposites were characterized by using powder X-ray diffraction (XRD), Fourier- Transform Infrared spectroscopy (FT-IR), Scanning Electron Microscope (SEM), Photoluminescence (PL) and UV-Vis spectroscopy. In the absence of metal and nitrate ions, the nanocomposites exhibit high fluorescence intensity. However, the strong coordination of the basic sites to metal and nitrate ions, causes fluorescence quenching via photoinduced electron transfer and static quenching leading to the qualitative and quantitative detection of metal and nitrate ions. This fluorescent chemosensor exhibits high selectivity toward arsenic (III), copper (II), mercury (II) and nitrate ion. The sensor was more sensitive for copper (II) ion than arsenic (III), mercury (II) and nitrate ions because (II) ion at (3.25x10 4 M -1 ) compared to 8.12 x 10 3 M -1 , 2.93 x 10 4 M -1 and 3.19 x 10 2 M -1 for arsenic (III), mercury (II) and nitrate ions respectively. The practical use of this sensor for arsenic (III), copper (II), mercury (II) and nitrate ions determination in Coca-cola, tap water, milk and lettuce samples respectively, were also applied. The amounts of mercury and nitrate concentrations measured in milk and lettuce were 56.66 μM and 3.18 mM, exceeding the allowable limits stated by WHO (0.1 μM for mercury and 5.9 μM for nitrate, respectively).
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Acta Chemica Iasi
Acta Chemica Iasi CHEMISTRY, MULTIDISCIPLINARY-
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