Electrochemical Oxidation of Phenol Released from Spent Coordination Polymer Impregnated with Ionic Liquid

IF 3 Q2 MATERIALS SCIENCE, COMPOSITES

Journal of Composites Science Pub Date : 2023-12-07 DOI:10.3390/jcs7120510

N. Pleşu, B. Maranescu, Milica Tara-Lunga Mihali, A. Visa

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Abstract

Coordination polymer (CP)-type adsorbents impregnated with ionic liquids that are used to remove phenol from wastewater must be regenerated. A simple washing of the adsorbent releases about 70% from the spent adsorbent. In order to increase and study the phenol release, an electrochemical method was used. For this purpose, an electrochemical commercial graphite electrode was used as the working electrode, and the electrolyte support was a 3% NaCl solution. During the electrochemical investigation, the spent CP was immersed in a saline solution. The PH content in the electrolyte affected the direct electrooxidation (EO); the formation of BQ appeared to be accelerated by a lower concentration and a slower release of PH. After 90 min, an efficiency of PH electrooxidation (EOPH) of 36.22% from Cu-PA and EOPH of 42.14% from Cu-PA-IL, respectively, was achieved. These results were significantly higher than the EOPH of the solution resulting from washing the wasted adsorbent with a saline solution (22.58%). This work highlights the potential for the simultaneous electrooxidation of desorbed PH and the recovery of spent adsorbent in this situation. The number of cycles in which the adsorbent can be used without losing its absorbance ability is three.

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离子液体浸渍的废配位聚合物释放出苯酚的电化学氧化作用

离子液体浸渍的配位聚合物(CP)型吸附剂用于去除废水中的苯酚，必须再生。对吸附剂进行简单的洗涤，可释放约70%的废吸附剂。为了增加苯酚的释放量并对其进行研究，采用了电化学方法。为此，采用电化学商用石墨电极作为工作电极，电解质载体为3% NaCl溶液。在电化学研究中，将废CP浸入生理盐水中。电解液中PH含量对直接电氧化(EO)有影响;较低的PH浓度和较慢的PH释放加速了BQ的形成。90 min后，Cu-PA和Cu-PA- il的PH电氧化效率分别为36.22%和42.14%。这些结果明显高于用生理盐水洗涤废吸附剂所得溶液的EOPH(22.58%)。这项工作强调了在这种情况下解吸PH的同时电氧化和废吸附剂的回收的潜力。吸附剂在不失去吸光能力的情况下可以使用的循环次数为3次。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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