Renewable molybdate complexes encapsulated in anion exchange resin for selective and durable removal of phosphate

The existence of many anions in wastewater reduces the removal efficiency of phosphate by adsorbents under realistic conditions. Facing this challenge, the study reports on an insistent and stable composite adsorbent of molybdate complexes Fe-(MoOx) embedded in a macroporous anion exchange resin (D-...

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Published inChinese chemical letters Vol. 32; no. 11; pp. 3382 - 3386
Main Authors Zhu, Wei, Huang, Xiaohua, Zhang, Yi, Yin, Zhonglong, Yang, Zhen, Yang, Weiben
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2021
School of Chemistry and Materials Science,Jiangsu Provincial Key Laboratory of Materials Cycling and Pollution Control,Nanjing Normal University,Nanjing 210046,China
Subjects
Molybdate composite adsorbent
Phosphate removal
Resin
Selective and durable adsorption
Structural transformation of complexes
Phosphate removal
Structural transformation of complexes
Molybdate composite adsorbent
Selective and durable adsorption
Resin
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Abstract The existence of many anions in wastewater reduces the removal efficiency of phosphate by adsorbents under realistic conditions. Facing this challenge, the study reports on an insistent and stable composite adsorbent of molybdate complexes Fe-(MoOx) embedded in a macroporous anion exchange resin (D-201). [Fe(MoOx)]-D-201 shows 93.7% adsorption capacity (28.3 mg/g) for phosphate even when the molar concentration of coexisting ions is 5 times higher than phosphate. The capacity of adsorbent is maintained more than 84.2% after five regeneration cycles to remove phosphate in the wastewater containing coexisting ions. The ability of highly selective removal of phosphate is maintained during the regeneration cycles explained by the change of the binding of molybdate clusters with phosphate, which is due to the different structures of molybdate clusters depending on various pH. In general, this work puts forward a new idea for the development of phosphorus removal adsorbents for the treatment of wastewater containing coexisting ions. In this work, molybdate complexes are integrated in confined pores of anion exchange resin to fabricate composite adsorbent. The resulting adsorbent exhibits robust selectivity on the adsorption of phosphate, as well as notable excellence in regeneration via MoOx structures transformation in acid solution. [Display omitted]
AbstractList The existence of many anions in wastewater reduces the removal efficiency of phosphate by adsorbents under realistic conditions. Facing this challenge, the study reports on an insistent and stable composite adsorbent of molybdate complexes Fe-(MoOx) embedded in a macroporous anion exchange resin (D-201). [Fe(MoOx)]-D-201 shows 93.7% adsorption capacity (28.3 mg/g) for phosphate even when the molar concentration of coexisting ions is 5 times higher than phosphate. The capacity of adsorbent is maintained more than 84.2% after five regeneration cycles to remove phosphate in the wastewater containing coexisting ions. The ability of highly selective removal of phosphate is maintained during the regeneration cycles explained by the change of the binding of molybdate clusters with phosphate, which is due to the different structures of molybdate clusters depending on various pH. In general, this work puts forward a new idea for the development of phosphorus removal adsorbents for the treatment of wastewater containing coexisting ions. In this work, molybdate complexes are integrated in confined pores of anion exchange resin to fabricate composite adsorbent. The resulting adsorbent exhibits robust selectivity on the adsorption of phosphate, as well as notable excellence in regeneration via MoOx structures transformation in acid solution. [Display omitted]
The existence of many anions in wastewater reduces the removal efficiency of phosphate by adsorbents under realistic conditions.Facing this challenge,the study reports on an insistent and stable composite adsorbent of molybdate complexes Fe-(MoOx) embedded in a macroporous anion exchange resin (D-201).[Fe(MoOx)]-D-201 shows 93.7% adsorption capacity (28.3 mg/g) for phosphate even when the molar con-centration of coexisting ions is 5 times higher than phosphate.The capacity of adsorbent is maintained more than 84.2% after five regeneration cycles to remove phosphate in the wastewater containing coexist-ing ions.The ability of highly selective removal of phosphate is maintained during the regeneration cycles explained by the change of the binding of molybdate clusters with phosphate,which is due to the differ-ent structures of molybdate clusters depending on various pH.In general,this work puts forward a new idea for the development of phosphorus removal adsorbents for the treatment of wastewater containing coexisting ions.
Author Yang, Zhen
Zhang, Yi
Zhu, Wei
Huang, Xiaohua
Yin, Zhonglong
Yang, Weiben
AuthorAffiliation School of Chemistry and Materials Science,Jiangsu Provincial Key Laboratory of Materials Cycling and Pollution Control,Nanjing Normal University,Nanjing 210046,China
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Keywords Phosphate removal
Structural transformation of complexes
Molybdate composite adsorbent
Selective and durable adsorption
Resin
Language English
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Snippet The existence of many anions in wastewater reduces the removal efficiency of phosphate by adsorbents under realistic conditions. Facing this challenge, the...
The existence of many anions in wastewater reduces the removal efficiency of phosphate by adsorbents under realistic conditions.Facing this challenge,the study...
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Publisher
StartPage 3382
SubjectTerms Molybdate composite adsorbent
Phosphate removal
Resin
Selective and durable adsorption
Structural transformation of complexes
Title Renewable molybdate complexes encapsulated in anion exchange resin for selective and durable removal of phosphate
URI https://dx.doi.org/10.1016/j.cclet.2021.04.027
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