Affiliation:
1. Key Laboratory of Science & Technology of Eco‐textile, Ministry of Education, College of Chemistry and Chemical Engineering Donghua University Shanghai China
2. National Innovation Center of Advanced Dyeing & Finishing Technology, Shandong Zhongkang Guochuang Research Institute of Advanced Dyeing & Finishing Technology Co., Ltd. Taian City China
3. Shanghai Belt and Road Joint Laboratory of Textile Intelligent Manufacturing, Innovation Center for Textile Science and Technology Donghua University Shanghai China
Abstract
AbstractCoordination complexes were widely used in advanced oxidation processes. The ligands with various substituents could lead to differences in the catalytic properties and mechanisms. In this work, the iron(III)–N,N′‐dipicolinamide (FeL) complexes (the iron(III) complexes with substituents –CH3, –H, –Cl and –NO2 named as FeL1, FeL2, FeL3 and FeL4, respectively) were used to activate hydrogen peroxide (H2O2) for degrading dyes wastewater. Mechanism studies indicated that the FeL4/H2O2 system contains the FeV=O in addition to the same •OH and O2•− as the other systems, which made it exhibit more excellent performance than others. The results of the performance tests showed that the FeL4/H2O2 system could remove 97%, 89%, 100%, 83%, 100%, and 99% of RR195, RY145, RB194, RB19, MB, and RhB, respectively, which proved the good application performance of the FeL4/H2O2 system. In addition, the performance of the FeL4/H2O2 system was not influenced by anions and natural organics. This study verified the feasibility of modulating the catalytic performance of the complexes by changing the substituents and provided an efficient catalytic system for dyeing wastewater treatment.
Funder
Fundamental Research Funds for the Central Universities
Subject
Materials Science (miscellaneous),General Chemical Engineering,Chemistry (miscellaneous)