合成能作为铁电有机源的金属醇盐

合成能作为铁电有机源的金属醇盐

文档编号:CL109 文档字数:11352,页数:22

摘要：本文档主要介绍了几种金属醇盐的制备方法，设计了合成单金属醇盐和双金属醇盐的路线。对于单金属醇盐，在通氨气的条件下，使乙醇和氯化锶反应，生成乙醇锶，在此过程中，氨气的主要作用是提供碱性条件。对于双金属醇盐，其合成过程为首先在丙三醇的一个端羟基上加钠，利用威廉森合成法，使丙三醇钠与溴乙烷反应生成混醚；再和氯化钛与氯化锶混合物反应，通氨气，在丙三醇的另外两个羟基上加上金属钛和锶。为了表征产物的结构，文章对纯化后金属醇盐做了红外检测，发现单金属醇盐产物中含有O-Sr,双金属醇盐产物中含有O-Ti和O-Sr。为了便于蒸馏，分离产物，可使用苯作为有机溶剂。文中合成的金属醇盐在铁电材料领域有广阔的应用前景。

关键词：丙三醇；铁电性；金属醇盐

Abstract: This article mainly introduces several metal alkoxides preparation methods， designs synthesis of single metal alkoxides and double metal alkoxides. To single metal alkoxides, we use Ammonia Synthesis reaction, thus under the condition of ammonia, make ethanol and strontium chloride reaction to produce ethanol strontium. In this process ,the primary role of ammonia is providing basic conditions. To double metal alkoxides, through the use of Williamson Synthesis, we first add sodium to glycerol, make it react with dibromethane to produce mixed ether; then under the condition of ammonia ,make the mixed ether reacts with chloride titanium and chloride strontium to add titanium and strontium to glycerol. To characterize the product structure, we did infrared detection to the purified metal alkoxides, then we noticed single metal alkoxides containing O-Sr and double metal alkoxides containing O-Ti and O-Sr. In order to facilitate the distillation and separate the production, benzene can be used as organic solvent. The synthesis of metal alkoxides that the text introduced have a broad application prospects in the field of ferroelectric material.Kyewords:Glycerin; Electric iron; Metal alkoxides

目录
中文摘要..........................................................I
英文摘要..........................................................II
目录..............................................................III
1.绪论............................................................1
1.1 铁电薄膜的简介............................................1
1.2 金属醇盐的简介............................................1
    1.2.1 金属醇盐的物化性质...................................2
    1.2.2 金属醇盐的各种制备方法...............................3
1.3 用金属醇盐作为铁电薄膜的优点..............................4
2.实验部分........................................................6
2.1 实验试剂和仪器............................................6
2.2 实验装置图................................................7
2.3 单金属醇盐的合成..........................................7
2.4 钛、锶双金属醇盐的合成....................................8
2.4.1 丙三醇钠的制备.......................................8
2.4.2 丙三醇乙基醚的最终合成...............................9
2.4.3 双金属醇盐的最终合成.................................9
3.结果与讨论......................................................11
3.1 金属醇盐制备条件的确定....................................11
3.1.1 乙醇锶的合成过程及参数的确定........................11
3.1.2 钛、锶双金属醇盐的合成过程及参数的确定..............12
3.2 红外检测结果的分析........................................13
3.2.1 单金属醇盐红外检测结果的分析........................13
3.2.2 钛、锶双金属醇盐红外检测结果的分析..................13
3.3 金属醇盐表征结果的讨论....................................15
3.4 铁电材料制备对金属醇盐的要求..............................15
     3.4.1 铁电材料的结构、特点................................15
     3.4.2 铁电材料制备对金属醇盐的要求........................16
4.总结与展望......................................................17
致谢..............................................................18
参考文献..........................................................19

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