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| Content Provider | IEEE Xplore Digital Library |
|---|---|
| Author | Zhong-Cheng Qiu Jian-Ping Zhou Gangqiang Zhu Xian-Zhi Chen Xiao-Ming Chen Peng Liu |
| Copyright Year | 2010 |
| Description | Author affiliation: Coll. of Phys. & Inf. Technol., Shaanxi Normal Univ., Xi'an, China (Zhong-Cheng Qiu; Jian-Ping Zhou; Gangqiang Zhu; Xian-Zhi Chen; Xiao-Ming Chen; Peng Liu) |
| Abstract | Summary form only given. Multiferroics have attracted considerable attention recently because of their fascinating physical behaviors and potential applications. $BiFeO_{3}$ is one of the well-known multiferroic compounds displaying coexistence of ferroelectricity and antiferromagnetism [1]. The $BiFeO_{3}$ properties in nanosize were especially helpful for understanding the foundational ferroelectric and magnetic mechanism [2]-[4]. Recently, only a few approaches by the hydrothermal method were reported about the pure $BiFeO_{3}$ with irregular shapes [5],[6]. The bismuth ferrite powders in these works were synthesized by using $[Bi(NO_{3})_{3}-5H_{2}O]$ and $[Fe(NO_{3})_{3}-9H_{2}O]$ as start materials, which reacted to produce pure $BiFeO_{3}$ phase in a limited experimental range. In this paper, pure $BiFeO_{3}$ crystallites were synthesized by using $FeCl_{3}-6H_{2}O$ and $BiCl_{3}$ as start materials and $NH_{4}CI$ as an addition in wide hydrothermal conditions. Bismuth ferrite powders were prepared via a hydrothermal process using a stoichiometric mixture of $FeCl_{3}-6H_{2}O$ and $BiCl_{3}$ as metal precursors and NaOH as a mineralizer. $FeCl_{3}-6H_{2}O$ and $BiCl_{3}$ kept the resultant concentration 0.05 M were dissolved in distilled water under a mechanical stirring. NaOH solution was slowly added to the above solution, followed by adding 1.29 g (1 M) $NH_{4}CI$ to part samples. Finally, the brown suspension was transferred into a 29 mL Teflon vessel filled at 4/5 of its volume. The hydrothermal treatment was performed with different reaction temperatures and holding times. After cooling down to room temperature, the products were washed several times and dried in an oven at 70 °C. X-ray diffraction (XRD) analysis was performed to determine the powder phases. Scanning electron microscopy (SEM Quan200) was employed to investigate the particle sizes and morphologies of the products. The magnetic properties of part samples were measured with an LDJ9600 type of vibrating sample magnetometer (VSM). The pure $BiFeO_{3}$ phase can be synthesized at wide NaOH concentration and wide temperature range with the help of $NH_{4}Cl$ solvent as shown in Fig. 1 and 2. The $BiFeO_{3}$ morphologies change from agglomerate and irregular particles to regular and dispersive cubic particles, and more morphologies were obtained with the help of $NH_{4}CI$ solvent as shown in Fig. 3 and 4. $BiFeO_{3}$ sample with more compact particles shows relative higher saturation magnetization. The details will be reported in the full manuscript. |
| Starting Page | 482 |
| Ending Page | 483 |
| File Size | 776450 |
| Page Count | 2 |
| File Format | |
| ISBN | 9781424466450 |
| e-ISBN | 9781424466443 |
| DOI | 10.1109/IVESC.2010.5644251 |
| Language | English |
| Publisher | Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Publisher Date | 2010-10-14 |
| Publisher Place | China |
| Access Restriction | Subscribed |
| Rights Holder | Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Content Type | Text |
| Resource Type | Article |
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