Synthesis of CaCu3Ti4O12 utilizing eggshell waste as a calcium source: Structure, morphology, and dielectric properties

IF 0.7 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of metals, materials and minerals Pub Date : 2022-09-30 DOI:10.55713/jmmm.v32i3.1337

A. Maddu, Habiburahmat Yulwan, I. Sofian, A. Sulaeman, Permono Adi Putro

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引用次数: 1

Abstract

Calcium copper titanate (CaCu3Ti4O12, CCTO) has been synthesized utilizing eggshell waste as a source of calcium through the hydrothermal route, followed by annealing treatment at temperatures 950°C and 1050°C. The sample with annealing temperatures of 950°C and 1050°C is named CTO-A and CCTO-B, respectively. The structure, microstructure, and dielectric properties of CCTO samples were investigated. The X-ray diffraction analysis results confirmed that the pure phase of CCTO has been successfully synthesized as identified in the diffraction pattern. The average crystallite size of CCTO is quite large due to annealing at high-temperature. The morphology of CCTO by electron microscopy investigation showed the grains tends to agglomerate as the annealing temperature increases due to the solid-state diffusion. Dielectric property investigation showed the CCTO samples have a high dielectric constant at low frequencies and decrease with increasing frequency. Sample CCTO-A annealed at 950oC has a higher dielectric constant than sample CCTO-B annealed at 1050oC, otherwise, it has a lower tangent loss than the sample CCTO-B.

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利用蛋壳废料作为钙源合成cuu3ti4o12:结构、形态和介电性能

以蛋壳废料为钙源，经950℃和1050℃退火处理，经水热法合成了钛酸铜钙(CaCu3Ti4O12, CCTO)。退火温度为950℃和1050℃的样品分别命名为CTO-A和CCTO-B。研究了CCTO样品的结构、微观结构和介电性能。x射线衍射分析结果证实了CCTO的纯相已成功合成。由于高温退火，CCTO的平均晶粒尺寸较大。电镜观察表明，随着退火温度的升高，由于固相扩散，CCTO的晶粒有团聚的趋势。介电性能研究表明，CCTO样品在低频时有较高的介电常数，随频率的增加而减小。在950oC退火的CCTO-A样品的介电常数高于1050oC退火的CCTO-B样品，否则，其切线损耗低于CCTO-B样品。

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来源期刊

Journal of metals, materials and minerals MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

1.40

自引率

11.10%

发文量

期刊介绍： Journal of Metals, Materials and Minerals (JMMM) is a double-blind peer-reviewed international journal published 4 issues per year (starting from 2019), in March, June, September, and December, aims at disseminating advanced knowledge in the fields to academia, professionals and industrialists. JMMM publishes original research articles as well as review articles related to research and development in science, technology and engineering of metals, materials and minerals, including composite & hybrid materials, concrete and cement-based systems, ceramics, glass, refractory, semiconductors, polymeric & polymer-based materials, conventional & technical textiles, nanomaterials, thin films, biomaterials, and functional materials.