Enhanced removal of aqueous Cr(VI) using optimized Fe complex on EDTA modified cotton fiber via photocatalytic reduction and adsorption hybrid functions

被引:0
作者
Yongchun Dong
Peng Wang
Lu Gan
Bing Li
Hongjie Wen
机构
[1] Tianjin Polytechnic University,Division of Textile Chemistry and Environmental Care, School of Textile Science and Engineering
[2] Tianjin Polytechnic University,Key Laboratory of Advanced Textile Composite of Ministry of Education
[3] Guangxi Entry-Exit Inspection and Quarantine Bureau,Inspection and Quarantine Technology Center
来源
Cellulose | 2019年 / 26卷
关键词
EDTA modified cotton; Fe complex; Cr(VI) removal; Photocatalytic reduction; Adsorption;
D O I
暂无
中图分类号
学科分类号
摘要
Cotton fabric was modified with Na2EDTA using a hydrothermal method and subsequent coordination of Fe(III) ions to produce a EDTA modified cotton fiber Fe complex (Fe-EDTA-Cotton) for the synergistic removal of Cr(VI) species from water through photocatalytic reduction and adsorption processes. High Na2EDTA concentration or hydrothermal temperature increased carboxyl group content (QCOOH) and Fe content (QFe) of the resulting Fe-EDTA-Cotton. Increasing QFe value of the complex or stronger irradiation favored the photocatalytic reduction of Cr(VI) species. Fe-EDTA-Cotton with high QCOOH value exhibited a good adsorption performance of the generated Cr(III) ions during the reaction. Thus, high photocatalytic reduction efficiency and strong Cr(III) ions capturing ability were responsible for the enhanced removal of Cr(VI) species of Fe-EDTA-Cotton as a hybrid photocatalyst in cyclic reuse.
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页码:7383 / 7397
页数:14
相关论文
共 200 条
[31]  
Stana-Kleinschek K(2009)Intensification of heterogeneous TiO J Hazard Mater 168 1569-1574
[32]  
Ribitsch V(2011) photocatalysis using an innovative micro–meso-structured-reactor for Cr(VI) reduction under simulated solar light Phys Chem Chem Phys 13 1957-1969
[33]  
Hug S(2016)Preservation of the photocatalytic activity of TiO Ind Crop Prod 87 27-32
[34]  
Laubscher H(2017) by EDTA in the reductive transformation of Cr(VI). Studies by time resolved microwave conductivity Chem Eur J 23 15415-15423
[35]  
James BR(2018)Processes affecting the remediation of chromium-contaminated sites Ind Crop Prod 123 197-207
[36]  
Jing F(2005)Ion exchange process for chromium removal and recovery from tannery wastes Fresen Environ Bull 14 612-615
[37]  
Liang R(2013)Preparation, characterization and application of Nd–TiO Appl Catal B 142 142-148
[38]  
Xiong J(2014) photocatalyst for the reduction of Cr(VI) under UV light illumination Chem Eng J 250 222-229
[39]  
Chen R(2017)Photocatalytic degradation of organics in water in the presence of iron oxides: influence of carboxylic acids Water Res 126 172-178
[40]  
Zhang S(2009)Degradation of metal-EDTA complexes by resting cells of the bacterial strain DSM 9103 J Hazard Mater 161 1069-1074
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