Yadav Ankita, Kumar Harish, Sharma Rahul, Kumari Rajni, Thakur Mony
Chemistry Dept., School of Basic Sciences, Central University of Haryana M.Garh-123029 India
Microbiology Dept., School of Life Sciences, Central University of Haryana M.Garh-123029 India.
RSC Adv. 2022 Aug 24;12(37):24063-24076. doi: 10.1039/d2ra03554e. eCollection 2022 Aug 22.
AgO, CoO, and ZnO (ACZ) mixed metal quantum dots (QDs) were synthesized by the sol-gel process. Polyaniline (PANI) was prepared by the chemical-oxidative technique. An approach was used for the synthesis of ACZ decorated PANI plastic nanocomposites (NCs). TEM, FTIR, FESEM, UV-visible, DSC, Raman, photoluminescence, and XRD techniques were used for characterizing the QDs, PANI, and ACZ decorated PANI NCs. Experimental and theoretical (DFT) studies were used to support the results. NCs were studied for their adsorption, magnetic, photocatalytic, electrical, thermal, photoluminescence, antibacterial, and anticorrosive activities. The plastic NCs of size 35 nm (observed from XRD and TEM) were found to be paramagnetic. UV-visible spectroscopy and DFT techniques were used to observe the optical band gap of NCs and show an almost equal band gap , 2.75 eV. In 1.0 M HSO, the NCs show an 82.0% corrosion inhibition efficiency for mild steel. The adsorption power of the silica gel + NCs packed column was higher than normal silica gel column. A very small low-intensity D band in the Raman spectra confirms defect-free NCs. The photocatalytic activity was observed against methyl-red dye in visible light. The thermal stability of plastic NCs was higher than pure PANI and QDs. The NCs were investigated for bactericidal activity against Gram (positive and negative) microorganisms. The ACZ decorated PANI NCs acted as good nanomaterials for adsorption, separation, magnetic, photocatalytic, photoluminescence, antibacterial, electrical, thermal insulator, and anticorrosive agent.
通过溶胶 - 凝胶法合成了AgO、CoO和ZnO(ACZ)混合金属量子点(QDs)。采用化学氧化技术制备了聚苯胺(PANI)。采用一种方法合成了ACZ修饰的PANI塑料纳米复合材料(NCs)。利用透射电子显微镜(TEM)、傅里叶变换红外光谱(FTIR)、场发射扫描电子显微镜(FESEM)、紫外 - 可见光谱、差示扫描量热法(DSC)、拉曼光谱、光致发光光谱和X射线衍射(XRD)技术对量子点、聚苯胺和ACZ修饰的聚苯胺纳米复合材料进行了表征。通过实验和理论(密度泛函理论,DFT)研究来支持实验结果。对纳米复合材料的吸附、磁性、光催化、电学、热学、光致发光、抗菌和防腐活性进行了研究。发现尺寸为35 nm的塑料纳米复合材料(由XRD和TEM观察得到)具有顺磁性。利用紫外 - 可见光谱和DFT技术观察纳米复合材料的光学带隙,结果显示其带隙几乎相等,为2.75 eV。在1.0 M硫酸中,纳米复合材料对低碳钢的缓蚀效率为82.0%。硅胶 + 纳米复合材料填充柱的吸附能力高于普通硅胶柱。拉曼光谱中非常小的低强度D带证实了纳米复合材料无缺陷。在可见光下观察到纳米复合材料对甲基红染料具有光催化活性。塑料纳米复合材料的热稳定性高于纯聚苯胺和量子点。研究了纳米复合材料对革兰氏(阳性和阴性)微生物的杀菌活性。ACZ修饰的聚苯胺纳米复合材料是用于吸附、分离、磁性、光催化、光致发光、抗菌、电学、热绝缘和防腐剂的良好纳米材料。
