纤维素在[Aim][MOA]/MIM溶剂中的溶解性能。

Dissolution performance of cellulose in [Aim][MOA]/MIM solvents.

作者信息

Xu Airong, Wang Yongxin, Li Changzhu, Xiao Zhihong, Liu Rukuan

机构信息

School of Chemical Engineering and Pharmaceutics, Henan University of Science and Technology Luoyang Henan 471003 PR China

Hunan Academy of Forestry Changsha Hunan 410004 PR China.

出版信息

RSC Adv. 2019 Jul 4;9(36):20976-20981. doi: 10.1039/c9ra03979a. eCollection 2019 Jul 1.

DOI:10.1039/c9ra03979a

PMID:35515513

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9065696/

Abstract

Cellulose solvents ([Aim][MOA]/MIM) were developed by combining diallylimidazolium methoxyacetate ([Aim][MOA]) with -methylimidazole (MIM). The cellulose solubilities in the ([Aim][MOA]/MIM) solvents were determined at 25 °C, and the effect of the MIM/[Aim][MOA] molar ratio on cellulose solubility was systematically investigated. Attractively, the solvents show cellulose solubility as high as 25.2 g 100 g even at 25 °C. It is proposed that the H2, H4 and H6 in [Aim] and the carboxyl O atom in [MOA] primarily contribute to the dissolution of cellulose; MIM mainly acts to dissociate [Aim][MOA] into [Aim] and [MOA], and stabilize the dissolved cellulose chains. Moreover, the porous cellulose materials with varying morphological structures could be tailored by simply tuning the cellulose solution concentration, and the formation mechanism of the cellulose material was discussed.

摘要

纤维素溶剂（[Aim][MOA]/MIM）是通过将甲基咪唑鎓甲氧基乙酸酯（[Aim][MOA]）与N-甲基咪唑（MIM）混合而开发的。在25℃下测定了纤维素在（[Aim][MOA]/MIM）溶剂中的溶解度，并系统研究了MIM/[Aim][MOA]摩尔比对纤维素溶解度的影响。引人注目的是，即使在25℃下，这些溶剂也显示出高达25.2 g/100 g的纤维素溶解度。据推测，[Aim]中的H2、H4和H6以及[MOA]中的羧基O原子对纤维素的溶解起主要作用；MIM主要作用是将[Aim][MOA]离解为[Aim]和[MOA]，并稳定溶解的纤维素链。此外，通过简单调节纤维素溶液浓度可以定制具有不同形态结构的多孔纤维素材料，并讨论了纤维素材料的形成机理。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/223c/9065696/8badc25b0cf7/c9ra03979a-f1.jpg

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纤维素在[Aim][MOA]/MIM溶剂中的溶解性能。

Dissolution performance of cellulose in [Aim][MOA]/MIM solvents.

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