A Novel Magnetic Nano-Sorbent Functionalized from N-methyl-d-glucamine for Boron Removal from Desalinated Seawater

Abstract: Boron is a special pollutant. Because of its relatively small molecular weight, it can freely penetrate the reverse osmosis membrane in the same way that water molecules can in reverse osmosis during seawater desalination, which affects the effluent quality of desalinated seawater. In this study, a new magnetic adsorption material, MNP-NMDG, was synthesized by combining magnetic nanoparticles (MNPs) of Fe3O4 with N-methyl-d-glucamine with a high selectivity to boron, and MNP-NMDG was characterized by scanning … Show more

“…18 Table 1 shows a comparison among different sorbent materials already employed for boron removal from aqueous medium. 19–27…”

“…18 Table 1 shows a comparison among different sorbent materials already employed for boron removal from aqueous medium. [19][20][21][22][23][24][25][26][27] In this study, a new material prepared by functionalizing GO with NMDG is proposed for boron removal in aqueous media. Graphene can be obtained as a 2-D nanomaterial with properties such as high surface area and relatively easy dispersion in water, 16,28,29 while GO can be obtained through mechanical exfoliation or chemical oxidation-reduction of graphite akes.…”

Graphene oxide functionalized with N-methyl-d-glucamine as a novel sorbent for boron removal from produced and formation waters

“…18 Table 1 shows a comparison among different sorbent materials already employed for boron removal from aqueous medium. 19–27…”

“…18 Table 1 shows a comparison among different sorbent materials already employed for boron removal from aqueous medium. [19][20][21][22][23][24][25][26][27] In this study, a new material prepared by functionalizing GO with NMDG is proposed for boron removal in aqueous media. Graphene can be obtained as a 2-D nanomaterial with properties such as high surface area and relatively easy dispersion in water, 16,28,29 while GO can be obtained through mechanical exfoliation or chemical oxidation-reduction of graphite akes.…”

Graphene oxide functionalized with N-methyl-d-glucamine as a novel sorbent for boron removal from produced and formation waters

Recent advances in boron removal in aqueous media. An approach to the adsorption process and process optimization

Investigation of the mechanism of establishing a solid–water–oil system by metastable droplets and their application in the fabrication of polyol nanosheets for rapid boron removal