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Literature DB >> 27773324

Enhanced boron adsorption onto synthesized MgO nanosheets by ultrasonic method.

Ping Li¹, Chuang Liu², Li Zhang³, Shili Zheng⁴, Yi Zhang¹.

Abstract

MgO nanosheets with high adsorption performance were fabricated by an ultrasonic method. It was revealed that, nest-like MgO was formed from the magnesium salt solution precipitation and further calcination. Then the nest-like MgO was exfoliated by ultrasonic waves to obtain MgO nanosheets with approximately a lateral of 200-600nm and a thickness of 10nm. Adjusting the ultrasonic time and power, the specific surface areas of MgO nanosheets could be tuned in a range of 79-168m2/g. The synthesized MgO nanosheets were used as adsorbents to remove boron from aqueous solution, and the maximum boron adsorption capacity of these MgO nanosheets reached 87mgg-1. The high uptake capability of the MgO nanosheets makes it potentially adsorbent for the removal of boron from wastewaters.

Entities: Chemical

Keywords: Adsorption mechanism; Boron adsorption; Magnesium oxide nanosheets; Ultrasonication

Year: 2016 PMID： 27773324 DOI： 10.1016/j.ultsonch.2016.07.029

Source DB: PubMed Journal: Ultrason Sonochem ISSN： 1350-4177 Impact factor: 7.491

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Cited

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