A non-metal route to realize the bio-based polyester of poly(hexylene succinate): preparation conditions, side-reactions and mechanism in sulfonic acid-functionalized Br?nsted acidic ionic liquids

Chenyang Wei; Zhengping Liu; Hongwei Tan; Liyan Huang; Jun Li

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A non-metal route to realize the bio-based polyester of poly(hexylene succinate): preparation conditions, side-reactions and mechanism in sulfonic acid-functionalized Br?nsted acidic ionic liquids

机译：实现聚（己烯琥珀酸酯）的生物基聚酯的非金属途径：制备条件，副反应和磺酸官能化BRα的副反应和机理。Nsted酸性离子液体

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A biodegradable linear bio-based polyester of poly(hexylene succinate) was effectively prepared in non-metal sulfonic acid-functionalized Br?nsted acidic ionic liquids (SFBAILs) as both the catalyst and the polymerization medium, and the processes of polycondensation and post-polycondensation in SFBAILs were also investigated. In addition, the side reactions which were detrimental to the growth of M _(w) of poly(hexylene succinate) were evaluated and the synthesis mechanism of poly(hexylene succinate) catalyzed by SFBAILs was discussed with the help of DFT calculations. The result shows that both the imidazole ring and the sulfonic group on cations of SFBAILs play an important role in the catalytic process.

机译：聚（己二酸琥珀酸盐）的可生物降解的线性生物生物基聚酯在非金属磺酸官能化的BRα中，作为催化剂和聚合介质，以及缩聚和后的方法还研究了SFBAIL中的缩聚。此外，评价对Poly（己烯酸琥珀酸盐）的M _（w）的生长的副反应，并在DFT计算的帮助下讨论了SFBAIL催化的聚（己二酸）的合成机制。结果表明，咪唑环和SFBAIL阳离子的磺基团在催化过程中起重要作用。

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《RSC Advances》 |2020年第58期|共8页
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Chenyang Wei; Zhengping Liu; Hongwei Tan; Liyan Huang; Jun Li;
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1. A non-metal route to realize the bio-based polyester of poly(hexylene succinate): preparation conditions, side-reactions and mechanism in sulfonic acid-functionalized Bronsted acidic ionic liquids [J] . Wei Chenyang, Liu Zhengping, Tan Hongwei, RSC Advances . 2020,第58期

机译：实现聚（己烯琥珀酸）生物基聚酯的非金属途径：磺酸官能化铜酸性离子液体的制备条件，副反应和机理
2. A facile route to realize the copolymerization of L-lactic acid and e-caprolactone: sulfonic acid-functionalized Bronsted acidic ionic liquids as both solvents and catalysts [J] . Qiaohong Peng, Khalid Mahmood, Ying Wu Green chemistry . 2014,第4期

机译：实现L-乳酸和ε-己内酯共聚的简便途径：磺酸官能化的布朗斯台德酸性离子液体既是溶剂又是催化剂
3. Methanolysis of microbial polyester poly(3-hydroxybutyrate) catalyzed by Br0nsted-Lewis acidic ionic liquids as a new method towards sustainable development [J] . Xiuyan Song, Fusheng Liu, Hui Wang, Polymer Degradation and Stability . 2018,第jana期

机译：布朗斯台德-刘易斯酸性离子液体催化微生物聚酯聚3-羟基丁酸酯的甲醇分解反应，作为可持续发展的新方法
4. Corrosivity and Corrosion Inhibiting Characteristics of Sulfonate-functionalized Triethylammonium and Pyridinium-type Brønsted Acidic Ionic Liquids [C] . Shuyun Cao, Dan Liu, Hui Ding, NACE international corrosion conference and expo . 2019

机译：磺酸盐官能化的三乙铵和吡啶鎓型布朗斯台德酸性离子液体的腐蚀和缓蚀特性
5. Catalytic preparation of levulinic acid from cellobiose via Brønsted-Lewis acidic ionic liquids functional catalysts [O] . Shiwei Liu, Kai Wang, Hailong Yu, -1

机译：Brønsted-Lewis酸性离子液体功能催化剂由纤维二糖催化制备乙酰丙酸
6. A non-metal route to realize the bio-based polyester of poly(hexylene succinate): preparation conditions, side-reactions and mechanism in sulfonic acid-functionalized Brønsted acidic ionic liquids [O] . Chenyang Wei, Zhengping Liu, Hongwei Tan, 2020

机译：一种实现聚（己烯琥珀酸盐）生物基聚酯的非金属途径：制备条件，副反应和磺酸官能化Brønsted酸性离子液体的副反应和机理

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A non-metal route to realize the bio-based polyester of poly(hexylene succinate): preparation conditions, side-reactions and mechanism in sulfonic acid-functionalized Br?nsted acidic ionic liquids

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