在不分流电化学流动池中自动优化烷基烯丙基磺酸盐的合成

IF 3.5 4区 化学 Q2 ELECTROCHEMISTRY
Maximilian M. Hielscher, Johannes Schneider, Alexander H. J. Lohmann, Prof. Dr. Siegfried R. Waldvogel
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引用次数: 0

摘要

通过将该反应转移到不分区的电化学流动池中,克服了间歇式烷基烷基磺酸盐多组分电化学合成中阳极和阴极分离的必要条件。通过使用实验设计(DoE)进行优化,收率从最初的 23% 提高到 67%。实验是通过自动化软件 LABS(实验室自动化和批量调度)控制的自动化实验流电解装置进行的,LABS 是一款开源软件,可通过任意、自由选择的实验装置计划和进行实验。结果表明,自动化实验装置非常稳定,可提供可重复的结果。共展示了 6 个实例,分离率高达 81%。此外,电化学反应的强大可扩展性也在 10 倍放大中得到了证明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Automated Optimization of the Synthesis of Alkyl Arenesulfonates in an Undivided Electrochemical Flow Cell

Automated Optimization of the Synthesis of Alkyl Arenesulfonates in an Undivided Electrochemical Flow Cell

Automated Optimization of the Synthesis of Alkyl Arenesulfonates in an Undivided Electrochemical Flow Cell

The necessary separation of anodic and cathodic compartments in the electrochemical multicomponent synthesis of alkyl arenesulfonates in batch was overcome by the transfer of this reaction in an undivided electrochemical flow cell. The yield was increased from an initial 23 % to 67 % by optimization using Design of Experiments (DoE). The experiments were carried out using an automated experimental flow electrolysis setup controlled by the automation software LABS (Laboratory Automation and Batch Scheduling), an open-source software that allows to plan and conduct experiments with an arbitrary, freely selectable experimental setup. The automated experimental setup turned out to be stable and provides reproducible results. In total, 6 examples are demonstrated with isolated yields up to 81 %. In addition, the robust scalability of the electrochemical reaction was demonstrated in a 10-fold scale-up.

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来源期刊
ChemElectroChem
ChemElectroChem ELECTROCHEMISTRY-
CiteScore
7.90
自引率
2.50%
发文量
515
审稿时长
1.2 months
期刊介绍: ChemElectroChem is aimed to become a top-ranking electrochemistry journal for primary research papers and critical secondary information from authors across the world. The journal covers the entire scope of pure and applied electrochemistry, the latter encompassing (among others) energy applications, electrochemistry at interfaces (including surfaces), photoelectrochemistry and bioelectrochemistry.
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