纳米复相锌铁氧体的隧道结构与相变动力学分析

无机材料学报, 2004, 19(1): 196-200.

纳米复相锌铁氧体的隧道结构与相变动力学分析

张栋杰 , 都有为

1.1. 南京师范大学材料科学重点实验室, 南京 210097

1.1. Laboratory of Materials Science

Nanjing Normal University

Nanjing 210097

China

2. 2. National Laboratory of Solid State Microstructure

Nanjing 210093

China

关键词：铁氧体 , tunneling structure , dynamics , ZnFe₂O₄

Tunneling Structure and Phase-Transformation Dynamics of Two-PhaseFerrite of ZnFe₂O₄/Fe₂O₃

ZHANG Dong-Jie , DU You-Wei

Keywords： ferrite , 隧道结构 , 动力学 , ZnFe₂O₄

采用sol-gel方法制备了ZnFe₂O₄/Fe₂O₃纳米复相铁氧体.利用X射线衍射,高分辨电镜(HREM)对样品的结构进行了分析.结果表明,复相锌铁氧体是形成隧道结构的必要条件;伏安曲线和磁电阻效应等从性能上说明复相锌铁氧体具有隧道磁电阻的特性;HREM直接观测到复相锌铁氧体形成隧道结构,其中绝缘层α-Fe₂O₃位于晶界处,从相变动力学分析中,也证实了α-Fe₂O₃是由ZnFe₂O₄晶界或表面控制的析晶,位于晶界处.

The nanostructure ferrites of two-phase ZnFe₂O₄/Fe₂O₃ were prepared by the sol-gel method.
The structure was analyzed by X-ray diffraction (XRD) and high-resolution electron microscope (HREM). The
results indicate that two-phase ferrite is the necessary condition to form tunneling structure. Non-Ohmic character
of I-V curve and magnetoresistance effect of two-phase ferrite also show tunneling character. The tunneling
structure was directly observed by HREM in two-phase ferrite that insulating layer of α-Fe₂O₃
located in interface between ferrets. Approved deeply by phase-transformation dynamics, crystallization of α-Fe₂O₃
is controlled by the interface or surface of ZnFe₂O₄crystallite.

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