Dielectric studies of a nano-crystalline CaCu2.90Zn0.10Ti4O12 electro-ceramic by one pot glycine assisted synthesis from inexpensive TiO2 for energy storage capacitors
- Authors
- Singh, Laxman; Kim, Ill Won; Sin, Byung Cheol; Mandal, Kam Deo; Rai, Uma Shanker; Ullah, Amir; Chung, Hoeil; Lee, Youngil
- Issue Date
- Oct-2014
- Publisher
- Royal Society of Chemistry
- Citation
- RSC Advances, v.4, no.95, pp 52770 - 52784
- Pages
- 15
- Indexed
- SCIE
SCOPUS
- Journal Title
- RSC Advances
- Volume
- 4
- Number
- 95
- Start Page
- 52770
- End Page
- 52784
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/143307
- DOI
- 10.1039/c4ra08915d
- ISSN
- 2046-2069
2046-2069
- Abstract
- A facile way for the synthesis of nano-crystalline CaCu2.90Zn0.10Ti4O12 (CCZTO) using a solution combustion technique based on the glycine-nitrate process with inexpensive solid TiO2 powder as the raw material is introduced in this manuscript, for the first time. The precursor powder was calcined between 200 degrees C and 850 degrees C for 3 h in air. Phase formation, crystalline nature, morphology and chemical purity of the fabricated CCZTO were investigated with TG/DTA, FT-IR, FT-Raman, XRD, SAED patterns, SEM, TEM, EDX and XPS analyses, respectively. The XRD results indicated that all sintered samples had a major CaCu3Ti4O12 structure with some amount of CaTiO3 and CuO. The bright-field TEM micrographs revealed that the particle size was in the range of 15-50 nm, which was in good agreement with the average crystallite size obtained from XRD. SEM micrographs of the sintered CCZTO ceramics showed the average grain sizes were in the range of 800 nm-7 mu m. EDX and XPS studies confirmed the stoichiometry and purity of the ceramics. The nature of the relaxation behavior of the ceramics was rationalized using impedance and modulus spectroscopy. The activation energies calculated from the grain-boundary relaxation time constant were found to be in the range of 0.79-0.52 eV, which confirmed the Maxwell-Wagner type of relaxation present in the ceramic. Our inexpensive novel solution chemistry based method for CCZTO_16h gives a high dielectric constant (799) and low dielectric loss (0.091) at 100 Hz at room temperature, which has potential significance for cost-effective technological applications in microelectronic devices.
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