Mg掺杂PST薄膜的溶胶-凝胶法制备及晶相形成研究  被引量：3

作　　者：杜丕一[1] 隋帅[1] 翁文剑[1] 韩高荣[1] 汪建勋[1] 

机构地区：[1]浙江大学硅材料国家重点实验室,杭州310027

出　　处：《物理学报》2005年第11期5411-5416,共6页Acta Physica Sinica

基　　金：国家自然科学基金(批准号:50372057和50332030);国家重点基础研究专项基金(批准号:2002CB613302)资助的课题.~~

摘　　要：利用溶胶-凝胶法成功制备了Mg掺杂Pb0.4Sr0.6MgxTi1-xO3-x薄膜,利用x射线衍射仪对薄膜的物相和结构进行了分析,用扫描电子显微镜对薄膜的形貌和断面等进行了观察.研究结果表明,薄膜以立方钙钛矿为晶相,薄膜中晶相以团聚状颗粒存在,晶相含量受热处理条件和Mg的掺杂量所控制.Mg掺杂对Pb0.4Sr0.6MgxTi1-xO3-x薄膜晶相含量的影响与钙钛矿中的氧空位缺陷相关.在一定的掺杂范围内,由掺杂引起晶相的晶格畸变较小时,体系掺Mg平衡了晶体内本征氧空位引入的电荷不平衡,使晶相更为稳定,析晶能力提高,晶体形成量随掺杂浓度的提高而提高.当掺杂浓度达到一定量时,随着Mg掺杂浓度增加,一方面使形成晶体时杂质浓度增加造成参与形成晶相的组成含量下降,另一方面使进入钙钛矿结构的Mg增加,氧空位大量增加使畸变程度提高,形成的晶相不稳定,析晶能力下降,晶体含量随掺杂Mg浓度的增加而不增反降.在相同条件下制备的Pb0.4Sr0.6MgxTi1-xO3-x薄膜中Mg掺量约为x=0.01时,得到的钙钛矿相含量最高,本征氧缺陷所带入的正电荷和Mg引入时带入的负电荷间达到平衡.此外,Mg的掺入还影响到析晶与热处理过程之间的关系.在高Mg掺量范围,Mg含量越高,形成的晶相越不稳定,热处理时间越长,使热处理过程中分解的晶相量越多,随Mg掺量越高和热处理时间越长,薄膜中晶相含量越低.PST thin film doped with Mg was successfully prepared using sol-gel process. The phase structure of the thin film was measured by XRD and the morphology of microstructure of the thin film was observed by SEM. Results showed that the cubic perovskite phase is formed in Mg-doped Pb0.4Sr0.6MgxTi1-xO3-x thin film prepared by sol gel process. The clustered crystallites are distributed and embedded in the base matrix of thin film. However, the contents of the perovskite phase was controlled by both Mg doping and heat treatment condition due to formation of intrinsic oxygen vacancy in the perovskite phase. The charge balance between the positive from the intrinsic oxygen vacancy and the negative from Mg substitution for Ti occurs when small amount of Mg is doped in the perovskite phase. The stable perovskite phase forms easily, and the crystallization of the perovskite phase is hence increased with increasing Mg doping up to x=0.01. The distortion of the perovskite phase structure would increase with farther increase of Mg doping in the crystallites above about x=0.01 due to the generation of a lot of oxygen vacancies. Henceforth unstable perovskite phase is formed and the crystallization of the film decreases with increasing Mg. Thus highest content of the perovskite phase is reached and the charge balance between positive and negative occurs in the film when Mg doping is x=0.01. Furthermore, the formed crystalline phase may decompose with increasing Mg content and time of heat treatment. So in the case of high Mg doping the higher the content of Mg and the longer the time of heat treatment, the lower the content of perovskite phase is contained in the film.

关 键 词：溶胶-凝胶法 PST薄膜 Mg掺杂 晶相形成 溶胶-凝胶法 Mg掺杂 晶相形成 薄膜 制备 PST 钙钛矿结构 扫描电子显微镜 热处理过程 

分 类 号：O484[理学—固体物理]