Synthesis of poly(oxymethylene) dimethy ethers catalyzed by acidic functionalized ionic liquids
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摘要: 对以酸功能化离子液体[Hnmp]HSO4、[Hnmp]H2PO4、[Hnmp]PTSA和[PyN(CH2)3SO3H]HSO4催化三聚甲醛和甲醇缩合制备聚缩醛二甲醚(PODEn,n>1)的反应进行了研究,考察了催化剂用量、物料配比、温度和时间等对反应活性的影响。结果表明,离子液体的催化活性与其酸性相关。[PyN(CH2)3SO3H]HSO4具有较高的催化活性;当[Hnmp]HSO4 的用量为2.0%、甲醇和三聚甲醛的物质的量比为2.0、反应温度110 ℃、反应压力2.0 MPa、反应时间6 h时,三聚甲醛的转化率和PODE3~8 的选择性分别为97.69%和32.54%。反应结束后,[PyN(CH2)3SO3H]HSO4与产物可自动分成两相。Abstract: Poly(oxymethylene) dimethyl ethers (PODE n, n>1) were synthesized by the condensation of trioxymethylene (TR) and methanol (MeOH) over the functionalized ionic liquids like [Hnmp]HSO4, [Hnmp]H2PO4, [Hnmp]PTSA and [PyN(CH2)3SO3H]HSO4; the effects of the catalyst amount, raw materials ratio, temperature, pressure and time on the reaction behaviors were investigated. The results showed that the catalytic activity of ionic liquid is related to its acidity. [PyN(CH2)3SO3H]HSO4 exhibits the highest catalytic activity; under the optimum reaction conditions, i.e. [PyN(CH2)3SO3H]HSO4 amount of 2.0%, molar ratio of MeOH to TR of 2.0, 110 ℃, 2.0MPa and reaction time of 6h, the conversion of TR and selectivity to PODE3~8 reach 97.69% and 32.54%, respectively. Moreover, the ionic liquid [PyN(CH2)3SO3H]HSO4 can be spontaneously separated from product phase after the reaction.
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Key words:
- ionic liquid /
- trioxymethylene /
- methanol /
- poly(oxymethylene) dimethy ethers
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