Preparation and properties of assembled nano-flake cobalt ferrite microspheres

doi:10.16085/j.issn.1000-6613.2015.01.036

Chemical Industry and Engineering Progree ›› 2015, Vol. 34 ›› Issue (1): 203-207.DOI: 10.16085/j.issn.1000-6613.2015.01.036

Previous Articles Next Articles

Preparation and properties of assembled nano-flake cobalt ferrite microspheres

ZHAO Liping, CHEN Guohong, FENG Zhirong, DUAN Hongzhen

Department of Chemistry, School of Science, North University of China, Taiyuan 030051, Shanxi, China

Received:2014-05-04 Revised:2014-05-23 Online:2015-01-05 Published:2015-01-05

纳米片组装钴铁氧体微球的制备及其性能

赵丽平, 陈国红, 俸志荣, 段红珍

中北大学理学院化学系, 山西太原 030051

通讯作者: 段红珍,博士,副教授,主要从事纳米材料研究工作。E-mail duanhz2000@163.com。
作者简介:赵丽平(1987-),女,硕士研究生。E-mail 785872191@qq.com。
基金资助:
国家自然科学基金项目(51272239)。

Abstract

Abstract: Assembled nano-flake CoFe₂O₄ microspheres were synthesized by using the ultrasonic solvothermal method. The microstructure and morphology of the samples were characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM). The prepared CoFe₂O₄ microspheres assembled by two-dimensional sheet were cubic structure with particle size about 20—30μm. The magnetic properties and microwave absorbing properties of the flake self-assembled CoFe₂O₄ microspheres and self-made CoFe₂O₄ powder were characterized by using vibrating sample magnetometer (VSM) and network vector analyzer. The saturation magnetization and coercive force of the flake self-assembled CoFe₂O₄ microspheres reached 76.15emu/g and 227.89Oe, respectively. In addition, the flake self-assembled CoFe₂O₄ microspheres had an obvious absorption peak at 6000MHz frequency band, where return loss value was greater than -18 dB and tended to increase. Structure and morphology of the samples had significant impact on their magnetic properties and microwave absorbing properties.

Key words: flake self-assembled, cobalt ferrite, ultrasonic solvothermal method, magnetic properties, microwave absorbing properties

摘要： 采用超声溶剂热法,成功地制备了由片状钴铁氧体(CoFe₂O₄)自组装的微球。采用X射线衍射仪(XRD)、扫描电子显微镜(SEM)对样品的结构和形貌进行了表征。结果表明,所制备的CoFe₂O₄微球为立方晶相结构,其粒径分布在20～30μm之间,是由二维纳米片组装而成。用振动样品磁强计(VSM)和网络矢量分析仪分别对纳米片组装微球样品及自制的CoFe₂O₄粉体的室温磁性和吸波性能进行了测试,结果显示,纳米片组装微球比自制粉体的磁性和微波吸收性能更好,其饱和磁化强度和矫顽力分别达到76.15emu/g和227.89Oe。此外,纳米片组装CoFe₂O₄微球在频率为6000MHz波段附近有一个明显的吸收峰,回损值大于-18dB,并有继续增大的趋势。说明产物的结构和形貌对其磁性和吸波性都有很大影响。

关键词: 片状组装, 钴铁氧体, 超声溶剂热法, 磁性, 吸波性

CLC Number:

O614.8

ZHAO Liping, CHEN Guohong, FENG Zhirong, DUAN Hongzhen. Preparation and properties of assembled nano-flake cobalt ferrite microspheres[J]. Chemical Industry and Engineering Progree, 2015, 34(1): 203-207.

赵丽平, 陈国红, 俸志荣, 段红珍. 纳米片组装钴铁氧体微球的制备及其性能[J]. 化工进展, 2015, 34(1): 203-207.

References

[1] Rahimi R,Kerdari H,Rabbani M,et al. Characterization and adsorbing properties of hollow Zn-Fe₂O₄ nanospheres on removal of Congo red from aqueous solution[J]. Desalination,2011,280(1-3) :412-418.

[2] Shen Y,Zhao Q D,Li X Y,et al. Surface photovoltage property of magnesium ferrite/hematite heterostructured hollow nanospheres prepared with one-pot strategy[J]. Colloids and Surfaces A:Physicochem. Eng. Aspects,2012,403 :35-40.

[3] Wei J J,Du A Y,Jin F,et al. The preparation and high-frequency electromagnetic properties of ferrimagnetic bisphthalonitrile-Fe₃O₄ core-shell hollow microspheres[J]. Journal of Magnetism and Magnetic Materials,2013,340 :70-75.

[4] 李荫远,李国栋. 铁氧体物理学[M]. 北京:科学出版社,1978.

[5] Teng F,Xu T G,Liang S H. Synthesis of hollow Mn₃O₄-in-Co₃O₄ magnetic microspheres and its chemiluminescence and catalytic properties[J]. Catalysis Communications,2008,9(6):1919-1124.

[6] Zhou J,Wu W,Caruntu D. Synthesis of porous magnetic hollow silica nanospheres for nanomedicine application[J]. J. Phys. Chem. C,2007,111:17473- 17477.

[7] Yang Z H,Li Z W,Liu L,et al. NiCuZn ferrite flakes prepared using a sol-gel bubble method and its magnetic properties[J]. Journal of Alloys and Compounds,2011,509:3038 -3041.

[8] Ramesha S,ChandraSekhara B,SubbaRaoa P S V,et al. Microstructural and magnetic behavior of mixed Ni-Zn-Co and Ni-Zn-Mn ferrites[J]. Ceramics International,2014,40:8729-8735.

[9] Zhao J C,Guo Y M,Guo H L,et al. Solvethermal synthesis of mono- and bi-metallic flower-like infinite coordination polymer and formation mechanism[J]. Inorganic Chemistry Communications,2012,18:21-24.

[10] 吕庆荣,方庆清,刘艳美,等. 四氧化三铁亚微空心的制备及表征[J]. 功能材料与器件学报,2009,15(6):559-563.

[11] Li Wangchang,Qiao Xiaojing,Zheng Qiuyu,et al.One-step synthesis of MFe₂O₄(M=Fe,Co) hollow spheres by template-free solvothermal method[J]. Journal of Alloys and Compounds,2011,509 :6206-6211.

[12] 蒲聿,李巧玲,张存瑞,等. 纳米钴铁氧体吸波材料的研究现状[J]. 当代化工,2009,38(4):420-423.

[13] 杨贵进. 稀土掺杂纳米钴铁氧体的制备及其磁性能研究[D]. 广州:暨南大学,2009.

[14] 张晏清,邱琴,张雄. 纳米钴、镍铁氧体的制备与吸波性能[J].磁性材料及器件,2009,40(5):30-36.

Preparation and properties of assembled nano-flake cobalt ferrite microspheres

纳米片组装钴铁氧体微球的制备及其性能

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 6

Recommended Articles

Metrics

Comments

[1]	GONG Pengcheng, YAN Qun, CHEN Jinfu, WEN Junyu, SU Xiaojie. Properties and mechanism of eriochrome black T degradation by carbon nanotube-cobalt ferrite composites activated persulfate [J]. Chemical Industry and Engineering Progress, 2023, 42(7): 3572-3581.
[2]	QI Guisheng, WU Xiaoli, LIU Youzhi, ZHENG Qi, GUO Linya. Preparation of cobalt ferrite nanoparticles by high gravity liquid precipitation method [J]. Chemical Industry and Engineering Progress, 2018, 37(05): 1680-1686.
[3]	DONG Piaoping, LIANG Fuyong, ZOU Zhenggang, WEN Herui. Research progress on the single-molecule magnets of Lanthanide complexes [J]. Chemical Industry and Engineering Progree, 2016, 35(09): 2802-2817.
[4]	FENG Huixia, WANG Guo, CHEN Jiao, TAN Lin, CHEN Nali, QIU Jianhui, CHEN Baiyi. Magnetic and electrical properties of polyaniline/CoFe₂O₄ nanocomposites [J]. Chemical Industry and Engineering Progree, 2015, 34(09): 3374-3378.
[5]	YANG Yanhua，LUO Juhua，ZHENG Ruilin，ZHU Shuangmei. Preparation and characterization of polyaniline/nickel nanocomposites [J]. Chemical Industry and Engineering Progree, 2009, 28(9): 1623-.
[6]	FU Jia，XU Qiming，ZHANG Wenyan，LI Ning. Solvothermal synthesis and properties of monodisperse magnetite nanoparticles [J]. Chemical Industry and Engineering Progree, 2008, 27(3): 457-.