Literature DB >> 20345133

Phosphate removal by anion binding on functionalized nanoporous sorbents.

Wilaiwan Chouyyok1, Robert J Wiacek, Kanda Pattamakomsan, Thanapon Sangvanich, Rafal M Grudzien, Glen E Fryxell, Wassana Yantasee.   

Abstract

Phosphate was captured from aqueous solutions by cationic metal-EDA complexes anchored inside mesoporous silica MCM-41 supports (Cu(II)-EDA-SAMMS and Fe(III)-EDA-SAMMS). Fe-EDA-SAMMS was more effective at capturing phosphate than the Cu-EDA-SAMMS and was further studied for matrix effects (e.g., pH, ionic strength, and competing anions) and sorption performance (e.g., capacity and rate). The adsorption of phosphate was highly pH dependent; it increased with increasing pH from 1.0 to 6.5, and decreased above pH 6.5. The adsorption was affected by high ionic strength (0.1 M of NaCl). In the presence of 1000-fold molar excess of chloride and nitrate anions, phosphate removal by Fe-EDA-SAMMS was not affected. Slight, moderate and large impacts were seen with bicarbonate, sulfate, and citrate anions, respectively. The phosphate adsorption data on Fe-EDA-SAMMS agreed well with the Langmuir model with the estimated maximum capacity of 43.3 mg/g. The material displayed rapid sorption rate (99% of phosphate removal within 1 min) and lowering the phosphate content to approximately 10 microg/L of phosphorus, which is lower than the EPA's established freshwater contaminant level for phosphorus (20 microg/L).

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Year:  2010        PMID: 20345133      PMCID: PMC2895918          DOI: 10.1021/es100787m

Source DB:  PubMed          Journal:  Environ Sci Technol        ISSN: 0013-936X            Impact factor:   9.028


  20 in total

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7.  Performance and mechanisms of thermally treated bentonite for enhanced phosphate removal from wastewater.

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10.  Novel oral detoxification of mercury, cadmium, and lead with thiol-modified nanoporous silica.

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