金属配合物与羟基肟和羧酸萃取剂通过有机-水界面的渗透过程

IF 0.6 4区工程技术 Q4 CHEMISTRY, MULTIDISCIPLINARY

Solvent Extraction Research and Development, Japan Pub Date : 2022-01-01 DOI:10.15261/serdj.29.21

Y. Nishihara

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引用次数: 0

摘要

采用蒙特卡罗/分子动力学(MC/MD)方法研究了羟基肟萃取剂LIX63和羧酸萃取剂Versatic acid 10 (VA10)的钴(II) (Co)配合物通过环己烷和水层界面的渗透过程，MC和MD分别对配位反应概率和短时间尺度的分子运动进行了研究。对于VA10体系，没有Co 2+通过界面渗透，说明VA10与Co 2+没有直接配位。对于LIX63的Co配合物，两个LIX63分子与有机相的Co 2+配位。配合物旋转，其中一个LIX63分子位于Co 2+和水相之间，然后配合物迁移到有机相。这表明萃取剂分子的扩散和配合物在界面周围的旋转对溶剂萃取很重要。

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Permeation Process of Metal Complexes with Hydroxyoxime and Carboxylic Acid Extractants through Organic-Aqueous Interface

Permeation process of the cobalt(II) (Co) complexes of the hydroxyoxime extractant, LIX63 and/or of the carboxylic acid extractant, Versatic Acid 10 (VA10), through the interface between cyclohexane and water layers was investigated using a hybrid Monte Carlo/Molecular Dynamics (MC/MD) method where MC and MD were performed for coordination reactions probabilistically and molecule movements on short time scale, respectively. For VA10 system, no Co 2+ permeated through the interface and this suggests that VA10 are not coordinated directly to Co 2+ . For Co complexes with LIX63, two LIX63 molecules were coordinated with Co 2+ from the organic phase. The complexes rotated and one of the LIX63 molecules was located between Co 2+ and the aqueous phase, then the complexes migrated into the organic phase. This suggests that the diffusion of the extractant molecules and the rotation of the complexes around the interface are important for solvent extraction.

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来源期刊

Solvent Extraction Research and Development, Japan 工程技术-工程：化工

CiteScore

1.30

自引率

14.30%

发文量

审稿时长

1 months

期刊介绍： Solvent Extraction Research and Development, Japan (Solvent Extr. Res. Dev., Jpn.) is a periodical issued from Japan Association of Solvent Extraction (JASE) containing papers dealing with all aspects of solvent extraction and their related methods, underlying principles, and materials. Original articles, notes, technical reports, and critical reviews will be considered for publication. Original articles must be of reasonably broad scope and significance to the solvent extraction. Notes will originally describe novel work of a limited nature or especially significant work in progress. Authors can contribute some information of novel techniques, equipment or apparatus, reagents and diluents for solvent extraction as technical reports. Critical reviews will be received from the authors to whom the editorial committee asked to contribute.