基于[Emim]BF₄ + 三乙醇胺 + 水体系的CO还原的多相光催化性能。

Heterogeneous photocatalytic performances of CO reduction based on the [Emim]BF + TEOA + HO system.

作者信息

Lin Jinliang, Li Youfeng, Xie Bo

机构信息

Department of Chemical and Engineering, Zunyi Normal College Zunyi 563000 P. R. China

出版信息

RSC Adv. 2019 Nov 4;9(61):35841-35846. doi: 10.1039/c9ra06235a. eCollection 2019 Oct 31.

DOI:10.1039/c9ra06235a

PMID:35528110

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9074635/

Abstract

The photochemical reduction of CO was studied in a 1-ethyl-3-methylimidazolium tetrafluoroborate, triethanolamine and water ([Emim]BF + TEOA + HO) system under visible light irradiation. The integration of CdS and the Co-bpy complex, which acted as a photocatalyst and cocatalyst, respectively, was employed as an efficient catalytic system for the CO-to-CO conversion. The utilization of [Emim]BF and water took advantage of their green properties. The amount of CO production showed that the test medium containing 10 vol% HO was favourable for the catalytic performance of the CO reduction. In order to further study the factors that influenced the current system, the physical and spectroscopy properties were characterized by altering the composition ratio of the ingredients. Relevant parameters, including the viscosity, conductivity, solubility and coordination, were adjusted using the ratio of the HO/[Emim]BF addition, resulting in a different catalytic performance. All of these attempts led to an optimal reaction condition for the CO reduction process.

摘要

在可见光照射下，对1-乙基-3-甲基咪唑四氟硼酸盐、三乙醇胺和水（[Emim]BF₄ + 三乙醇胺 + H₂O）体系中CO的光化学还原进行了研究。分别作为光催化剂和助催化剂的CdS与Co-联吡啶配合物的整合被用作将CO转化为CO的高效催化体系。[Emim]BF₄和水的利用利用了它们的绿色特性。CO的产量表明，含有10体积% H₂O的测试介质有利于CO还原的催化性能。为了进一步研究影响当前体系的因素，通过改变成分的组成比来表征物理和光谱性质。使用H₂O/[Emim]BF₄添加比例来调整包括粘度、电导率、溶解度和配位等相关参数，从而产生不同的催化性能。所有这些尝试都得出了CO还原过程的最佳反应条件。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3753/9074635/91621873d933/c9ra06235a-f1.jpg

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基于[Emim]BF₄ + 三乙醇胺 + 水体系的CO还原的多相光催化性能。

Heterogeneous photocatalytic performances of CO reduction based on the [Emim]BF + TEOA + HO system.

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