一种通用方法，可同时合成两种难以获得的离子液体，且具有高原子经济性。

Versatile Method for the Simultaneous Synthesis of Two Ionic Liquids, Otherwise Difficult to Obtain, with High Atom Economy.

作者信息

Szpecht Andrea, Zajac Adrian, Zielinski Dawid, Maciejewski Hieronim, Smiglak Marcin

机构信息

Faculty of Chemistry Adam Mickiewicz University ul. Umultowska 89 B 61-614 Poznan Poland.

Poznan Science and Technology Park Adam Mickiewicz University ul. Rubiez 46 61-612 Poznan Poland.

出版信息

ChemistryOpen. 2019 Jul 18;8(7):972-983. doi: 10.1002/open.201900217. eCollection 2019 Jul.

DOI:10.1002/open.201900217

PMID:31360624

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6637701/

Abstract

A new synthetic approach and full spectral (NMR, IR, MS) and ion chromatographic characterization (IC) of nitrogen-based ionic liquids bearing allyl- or ethyl- substituent and triflate, tosylate, methyl sulfate or methanesulfonate anion has been presented. On a sample of 16 new ionic liquids, the versatility of the anion exchange method has been proven. In the metathesis reactions that have been carried out, the halide anion was exchanged in ionic liquid with an alkyl sulfonate based anion using alkylating agents. The results obtained using ion chromatographic analysis on the newly synthesized compounds have been discussed. Also, the utilization of a gaseous methyl halide by-product, obtained in the metathesis reaction and otherwise difficult to synthesize, has been presented. This approach ensured high atom economy of the overall process, which makes the proposed methodology sustainable and eco-friendly.

摘要

本文介绍了一种新的合成方法，以及对带有烯丙基或乙基取代基和三氟甲磺酸盐、对甲苯磺酸盐、硫酸甲酯或甲磺酸阴离子的氮基离子液体进行全光谱（核磁共振、红外光谱、质谱）和离子色谱表征（离子色谱法）。在16种新型离子液体的样品上，已证明了阴离子交换方法的通用性。在进行的复分解反应中，使用烷基化剂将离子液体中的卤化物阴离子与基于烷基磺酸盐的阴离子进行交换。已讨论了对新合成化合物进行离子色谱分析所获得的结果。此外，还介绍了在复分解反应中获得的、否则难以合成的气态卤代甲烷副产物的利用。这种方法确保了整个过程的高原子经济性，这使得所提出的方法具有可持续性和生态友好性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7646/6637701/55ff302f65e7/OPEN-8-972-g006.jpg

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一种通用方法，可同时合成两种难以获得的离子液体，且具有高原子经济性。

Versatile Method for the Simultaneous Synthesis of Two Ionic Liquids, Otherwise Difficult to Obtain, with High Atom Economy.

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