Facile Synthesis of Benzene Tricarboxylate-Modified Cerium, Cobalt and Zinc Nanoparticles: Structural and Electrochemical Characterization

IF 2.6 4区 综合性期刊 Q2 MULTIDISCIPLINARY SCIENCES Arabian Journal for Science and Engineering Pub Date : 2024-03-28 DOI:10.1007/s13369-024-08902-0
Sabah Haider, Maria Zaib, Umar Farooq
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Abstract

The research on metal oxide nanoparticles (MONs) has witnessed incredible growth in recent decades as they are promising electrode materials for multiple applications. This work presents the hydrothermal synthesis of morphologically different MONs based on zinc, cobalt and cerium metals and their modifications with benzene tricarboxylic acid (BTC) using layer-by-layer assembly method. The simple and modified nanoparticles were structurally characterized by FTIR, XRD, SEM–EDX and TGA. Modified carbon paste electrodes (1% w/w) were fabricated using each of the ZnO, ZnO–Cu–BTC, Co3O4, Co3O4–Cu–BTC, CeO2 and CeO2–Cu–BTC materials separately with graphite powder in paraffin oil using 3 cc portable plastic syringe. The XRD results showed 35.5, 10.8, 14.1, 11.6, 10.2 and 8.6 nm average crystal size for ZnO, ZnO–Cu–BTC, Co3O4, Co3O4–Cu–BTC, CeO2 and CeO2–Cu–BTC, respectively. The electrochemical characterizations of each electrode were performed by EIS as well as CV. The electrochemical surface area of electrodes fabricated from ZnO, ZnO–Cu–BTC, Co3O4, Co3O4–Cu–BTC, CeO2 and CeO2–Cu–BTC materials was calculated to be 153.4, 610.4, 746.1, 951.5, 161.7, and 951.8 cm2, respectively. The results from EIS plots indicated that electrodes based on modified metal oxide nanoparticles experienced lesser charge transfer resistance as compared to that in simple metal oxide-based electrodes. All the results indicated that electrodes based on modified MONs provide better surface area, surface coverage, charge transfer coefficients and rate constants as compared to those for simple MON-based electrodes. It is concluded that modification of simple MONs with BTC provided smaller particles size, better structural morphology and redox reactions assistance, making them suitable for better electrochemical applications.

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苯三羧酸盐修饰的铈、钴和锌纳米粒子的简便合成:结构和电化学特性分析
近几十年来,有关金属氧化物纳米颗粒(MONs)的研究取得了惊人的发展,因为它们是具有多种应用前景的电极材料。本研究采用逐层组装法,以锌、钴和铈金属为基础,通过水热法合成了形态各异的金属氧化物纳米颗粒,并用苯三羧酸(BTC)对其进行了修饰。通过傅立叶变换红外光谱、X 射线衍射、扫描电镜-电子显微镜和热重分析,对简单的纳米颗粒和改性纳米颗粒进行了结构表征。使用 3 cc 便携式塑料注射器,在石蜡油中分别加入 ZnO、ZnO-Cu-BTC、Co3O4、Co3O4-Cu-BTC、CeO2 和 CeO2-Cu-BTC 材料和石墨粉,制成了改性碳浆电极(1% w/w)。XRD 结果显示,ZnO、ZnO-Cu-BTC、Co3O4、Co3O4-Cu-BTC、CeO2 和 CeO2-Cu-BTC 的平均晶体尺寸分别为 35.5、10.8、14.1、11.6、10.2 和 8.6 nm。通过 EIS 和 CV 对每个电极进行了电化学表征。经计算,由 ZnO、ZnO-Cu-BTC、Co3O4、Co3O4-Cu-BTC、CeO2 和 CeO2-Cu-BTC 材料制成的电极的电化学表面积分别为 153.4、610.4、746.1、951.5、161.7 和 951.8 平方厘米。EIS 图的结果表明,与基于简单金属氧化物的电极相比,基于改性金属氧化物纳米颗粒的电极具有较小的电荷转移电阻。所有结果都表明,与简单的基于 MON 的电极相比,基于改性 MON 的电极具有更好的表面积、表面覆盖率、电荷转移系数和速率常数。结论是,用 BTC 对简单 MONs 进行改性,可使其颗粒尺寸更小、结构形态更好并有助于氧化还原反应,从而使其适用于更好的电化学应用。
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来源期刊
Arabian Journal for Science and Engineering
Arabian Journal for Science and Engineering MULTIDISCIPLINARY SCIENCES-
CiteScore
5.70
自引率
3.40%
发文量
993
期刊介绍: King Fahd University of Petroleum & Minerals (KFUPM) partnered with Springer to publish the Arabian Journal for Science and Engineering (AJSE). AJSE, which has been published by KFUPM since 1975, is a recognized national, regional and international journal that provides a great opportunity for the dissemination of research advances from the Kingdom of Saudi Arabia, MENA and the world.
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