功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2015年
8期
8028-8030
,共3页
ZAO 薄膜%溅射功率%方块电阻%透过率
ZAO 薄膜%濺射功率%方塊電阻%透過率
ZAO 박막%천사공솔%방괴전조%투과솔
ZAO thin films%sputtering power%square resistance%transmittance
采用射频磁控溅射工艺,以高密度氧化锌铝陶瓷靶为靶材,衬底温度控制在室温,在玻璃基底上制备了透明导电 ZnO∶Al(ZAO)薄膜.利用 X 射线衍射仪(XRD)、原子力显微镜(AFM)、紫外-可见光谱仪和范德堡法,系统研究了不同溅射功率对薄膜的结构、形貌及光电特性的影响.结果表明,不同溅射功率对薄膜的光透射率影响不大,而对薄膜结晶和电学性能影响较大.XRD 表明薄膜为良好的 c 轴择优取向;可见光区(400~600 nm)平均透过率达到85%以上;在120 W 下沉积的薄膜电学性能达到了最佳.
採用射頻磁控濺射工藝,以高密度氧化鋅鋁陶瓷靶為靶材,襯底溫度控製在室溫,在玻璃基底上製備瞭透明導電 ZnO∶Al(ZAO)薄膜.利用 X 射線衍射儀(XRD)、原子力顯微鏡(AFM)、紫外-可見光譜儀和範德堡法,繫統研究瞭不同濺射功率對薄膜的結構、形貌及光電特性的影響.結果錶明,不同濺射功率對薄膜的光透射率影響不大,而對薄膜結晶和電學性能影響較大.XRD 錶明薄膜為良好的 c 軸擇優取嚮;可見光區(400~600 nm)平均透過率達到85%以上;在120 W 下沉積的薄膜電學性能達到瞭最佳.
채용사빈자공천사공예,이고밀도양화자려도자파위파재,츤저온도공제재실온,재파리기저상제비료투명도전 ZnO∶Al(ZAO)박막.이용 X 사선연사의(XRD)、원자력현미경(AFM)、자외-가견광보의화범덕보법,계통연구료불동천사공솔대박막적결구、형모급광전특성적영향.결과표명,불동천사공솔대박막적광투사솔영향불대,이대박막결정화전학성능영향교대.XRD 표명박막위량호적 c 축택우취향;가견광구(400~600 nm)평균투과솔체도85%이상;재120 W 하침적적박막전학성능체도료최가.
ZnO∶Al (ZAO)transparent conductive thin films were sputtered on glass substrates by RF magne-tron sputtering with ZnO ceramic target mixed with Al2 O 3 of 2wt%.The influence of sputtering power on the structural,optical and electrical performance of ZAO films were characterized by X-ray diffraction (XRD), atomic force microscope (AFM),UV-Vis spectrograph and Van der Pauw method.The results indicate that the different sputtering power has little influence on the light transmittance,but there are greater effects on film crystallization and electrical properties.c-axis orientation of ZAO films in (002 )direction was distinctly ob-served by XRD.The average visible (about 400-600 nm)transmittance was more than 85%.The optimum elec-trical property of ZAO film was prepared at sputtering power of 120 W.
