凝胶水热法制备Pb0.92La0.08(Zr0.68Ti0.32)0.98O3粉体的结晶与形貌

IF 1.5 4区 材料科学 Q3 CRYSTALLOGRAPHY
Xing Zong, Xiyun He, X. Zeng, P. Qiu, L. Ling, Ying Shi
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引用次数: 1

摘要

采用凝胶水热法制备了分散性好的纯钙钛矿Pb0.92La0.08(Zr0.68Ti0.32) 0.980 o3 (PLZT(8/68/32))晶体粉末。考察和分析了矿化剂浓度、水热处理时间和过量铅含量对粉体结晶和形貌的影响。适宜的矿化剂浓度和水热处理时间有助于促进PLZT晶体粉末的生长,改善颗粒表面形貌。值得注意的是,过量Pb的引入可以很好地补偿溶液中缺乏的A位离子,从而促进菱形PLZT晶体粉末的形成。建立了最佳水热条件:温度≈230℃,矿化剂浓度≈2 m,水热处理时间≈24 h,过量Pb量≈80%。所得的PLZT晶体粉末具有干净完整的立方体形态、均匀的粒度和良好的分散性,可作为种子诱导生长PLZT陶瓷的晶体种子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Crystallization and Morphology of Pb0.92La0.08(Zr0.68Ti0.32)0.98O3 Powders Synthesized Using the Gel‐Hydrothermal Process
Pure perovskite Pb0.92La0.08(Zr0.68Ti0.32)0.98O3 (PLZT (8/68/32)) crystal powders with good dispersibility are prepared by using gel‐hydrothermal method. The effects of mineralizer concentration, hydrothermal treatment time, and excess lead content on powder crystallization and morphology are examined and analyzed. The suitable mineralizer concentration and hydrothermal treatment time are found to be helpful to promote the PLZT crystal powders growth and improve the particle surface morphology. Noticeably, the introduction of excessive Pb can well compensate for the lack of A‐site ions in the solution, thereby promoting the formation of rhombohedral PLZT crystal powders. The following optimized hydrothermal conditions are established: the temperature ≈230 °C, the mineralizer concentration ≈2 m, the hydrothermal treatment time ≈24 h, and the amount of excess Pb ≈ 80%. The obtained PLZT crystal powders with clean and complete cube morphology, uniform particle size, and excellent dispersibility would be used as the crystal seeds applying in the seed‐induced growth of PLZT ceramics.
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来源期刊
自引率
6.70%
发文量
121
审稿时长
1.9 months
期刊介绍: The journal Crystal Research and Technology is a pure online Journal (since 2012). Crystal Research and Technology is an international journal examining all aspects of research within experimental, industrial, and theoretical crystallography. The journal covers the relevant aspects of -crystal growth techniques and phenomena (including bulk growth, thin films) -modern crystalline materials (e.g. smart materials, nanocrystals, quasicrystals, liquid crystals) -industrial crystallisation -application of crystals in materials science, electronics, data storage, and optics -experimental, simulation and theoretical studies of the structural properties of crystals -crystallographic computing
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