利用FESEM,XRD和紫外可见分光光度计研究了强磁场作用时间对真空蒸发氧化法制备的Co掺杂ZnO薄膜微观结构和光学性能的影响.结果表明:强磁场抑制了ZnO珊瑚枝状形貌的生长,氧化60 min时,无磁场下生长成球状颗粒,而6T磁场下则生长成片状组织.强磁场作用时间的增加会使薄膜的择优生长从(101)变成(002);影响磁性Co原子在ZnO中的分布;薄膜的禁带宽度降低到2.95~3.13 eV的范围内.另外,无磁场时氧化时间的增加会降低薄膜的透光率,而强磁场下氧化时间的增加会提高透光率.这些研究结果为ZnO薄膜表面形貌、择优生长、磁性原子分布、透光率和禁带宽度等微观结构和光学性能的调控提供了一种新方法.
The effects of the oxidation time under high magnetic field on the microstructure and optical properties of oxidized Co-doped Zn prepared by vacuum evaporation were studied by FESEM,XRD and ultraviolet visible spectrophotometer.The results show that the growth of coral dendritic structures of ZnO films is inhibited by high magnetic field.Spherical particles of ZnO film oxidized for 60 min without magnetic field transforms to leaf like morphologies with the application of a 6 T magnetic field.With increasing oxidation time under high magnetic field,the preferred orientation of (101) transforms to (002); distribution of magnetic Co atoms in ZnO is influenced; the band gap is decreased to the range of 2.95~3.13 eV.The transmittance is decreased by the spherical morphologies.However,it is increased by the application of high magnetic field.These results give a new method to tune the microstructure and optical properties of surface morphology,preferred orientation,magnetic atomic distribution,transmittance,and band gap.
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