功能材料与器件学报
功能材料與器件學報
공능재료여기건학보
JOURNAL OF FUNCTIONAL MATERIALS AND DEVICES
2009年
1期
79-82
,共4页
电致变色%纳米晶%WO3薄膜
電緻變色%納米晶%WO3薄膜
전치변색%납미정%WO3박막
electro-discoloring%nanocrystalline%WO3 films
采用射频反应溅射制备了纳米晶WO3薄膜.基于Berg理论建立了WO3射频反应溅射模型,并分析工艺参数对滞回曲线的影响,基于研究了抽速、基片温度、馈入功率、靶片间距和溅射靶等离子体溅射面积的影响.提出了一种新的消除滞回曲线的制备纳米晶WO3薄膜的方法和优化的工艺参数.论文制备了性能良好的电致变色纳米晶WO3薄膜.分别用环境扫描电镜(ESEM)、X射线光电子能谱(XPS),X射线衍射(XRD)和分光光度计测试了该薄膜,该薄膜在可见光波段,不变色时的透光率大于95%,变色后为65%.纳米晶WO3薄膜的晶粒尺寸在40纳米左右,其高比表面积和缺陷态为电致变色的例子扩散提供了通道.
採用射頻反應濺射製備瞭納米晶WO3薄膜.基于Berg理論建立瞭WO3射頻反應濺射模型,併分析工藝參數對滯迴麯線的影響,基于研究瞭抽速、基片溫度、饋入功率、靶片間距和濺射靶等離子體濺射麵積的影響.提齣瞭一種新的消除滯迴麯線的製備納米晶WO3薄膜的方法和優化的工藝參數.論文製備瞭性能良好的電緻變色納米晶WO3薄膜.分彆用環境掃描電鏡(ESEM)、X射線光電子能譜(XPS),X射線衍射(XRD)和分光光度計測試瞭該薄膜,該薄膜在可見光波段,不變色時的透光率大于95%,變色後為65%.納米晶WO3薄膜的晶粒呎吋在40納米左右,其高比錶麵積和缺陷態為電緻變色的例子擴散提供瞭通道.
채용사빈반응천사제비료납미정WO3박막.기우Berg이론건립료WO3사빈반응천사모형,병분석공예삼수대체회곡선적영향,기우연구료추속、기편온도、궤입공솔、파편간거화천사파등리자체천사면적적영향.제출료일충신적소제체회곡선적제비납미정WO3박막적방법화우화적공예삼수.논문제비료성능량호적전치변색납미정WO3박막.분별용배경소묘전경(ESEM)、X사선광전자능보(XPS),X사선연사(XRD)화분광광도계측시료해박막,해박막재가견광파단,불변색시적투광솔대우95%,변색후위65%.납미정WO3박막적정립척촌재40납미좌우,기고비표면적화결함태위전치변색적례자확산제공료통도.
Nanocrystalline WO3 thin films is prepared by RF reactive sputtering in this paper. Based on the a-nalysis of the Berg hysteresis model, we analyze the process parameter influence on the hysteresis effect, in-clusing pumping speed, temperature of substrate and target, input power, target to substrate distance and area of target. A new active feedback control method is present in this paper to eliminate hysteresis effect and de-positing nanocrystalline WO3 thin films. Through measurement of its electro-discoloring properties, we get a good tungsten oxide films. The tungsten oxide films have a high visible light transmission rate before discolo-ring, the maximum value reach 95% at the visible light wave length 550nm. After discoloring, visible light transmission rate decrease to 30% at wave length 550nm. XPS and XRD results show that the tungsten oxide films is nanocrystalline. The nanocrystalline WO3 has a very high ratio surface area and those surface defect provide ion mere diffusion channel, so nano-crystaln has a good electro-discoloring property. The better size of Nano-crystal is about 40nm.