探针声合成光催化和超级电容器用CuO-ZnO杂化纳米复合材料

Amal BaQais, Mir Waqas Alam, Mohd Farhan, Ghazala Muteeb, Nassiba Allag, Shehla Mushtaq
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引用次数: 1

摘要

采用超声辅助探针超声途径,有效制备了不同CuO和ZnO配比的纯CuO和二维CuO-ZnO纳米复合材料(NCs),并通过实验和理论方法研究了其结构、光催化和电化学性能。XRD (x射线衍射)图显示,纯CuO和CuO- zno纳米的晶粒尺寸(D)范围为25 ~ 31 nm。根据计算,样品的NCs的光能带隙值(Eg)在1.72 ~ 2.15 eV之间。在紫外光照射下,研究了纯CuO和CuO- zno纳米颗粒在耐晒蓝(FB)染料上的光催化变色性能。在紫外光的作用下,含有10% ZnO的CuO复合材料对染料的降解率为83.4%,高于纯CuO和其他NCs。利用循环伏安法和电化学阻抗谱(EIS)对制备的纳米碳材料的电化学性能进行了研究。在1 A/g电流密度下,CuO、CuO + 5% ZnO、CuO + 10% ZnO和CuO + 15% ZnO的比电容值分别为248 Fg−1、301 Fg−1、352 Fg−1和277 Fg−1。对所设计的nc进行的恒流充放电试验表明,在超级电容器应用中具有优异的电容性能。这些创新的结果可以考虑扩大新资源的规模,用于光催化和超级电容器的双重应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Probe-Sonicated Synthesis of CuO–ZnO Hybrid Nanocomposite for Photocatalytic and Supercapacitor Applications
An ultrasound-assisted probe sonication route effectively prepared pure CuO and two-dimensional CuO-ZnO nanocomposites (NCs) for different ratios of CuO and ZnO, and the experimental and theoretical methods investigated the structural, photocatalytic, and electrochemical properties. The XRD (X-ray diffraction) patterns revealed a crystallite size (D) range of 25 to 31 nm for pure CuO and CuO-ZnO NCs. According to calculations, the sample’s optical energy bandgap value (Eg) for the NCs is between 1.72 and 2.15 eV. Under UV light irradiation, the photocatalytic discoloration of pure CuO and CuO-ZnO NCs on fast blue (FB) dye was assessed. Under the influence of UV light, the CuO with 10% ZnO composite degrades 83.4% of the dye, which is greater than pure CuO and other NCs. The electrochemical properties of the prepared NCs materials have been studied using cyclic voltammetry and electrochemical impedance spectroscopy (EIS). The specific capacitance values were found to be 248 Fg−1, 301 Fg−1, 352 Fg−1, and 277 Fg−1 for CuO, CuO + 5% ZnO, CuO + 10% ZnO, and CuO + 15% ZnO, respectively, at 1 A/g current density. Galvanostatic charge–discharge tests for these designed NCs show excellent capacitance performance in supercapacitors applications. These innovative results could be considered for expanding novel resources to scale for dual applications in photocatalysis and supercapacitors.
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