Water-Dispersible Magnetite-Reduced Graphene Oxide Composites for Arsenic Removal
Vimlesh Chandra (2282593)Jaesung Park (389701)Young Chun (2075647)Jung Woo Lee (441605)In-Chul Hwang (1276635)Kwang S. Kim (36900)
Abstract
Magnetite−graphene hybrids have been synthesized <i>via</i> a chemical reaction with a magnetite particle size of ∼10 nm. The composites are superparamagnetic at room temperature and can be separated by an external magnetic field. As compared to bare magnetite particles, the hybrids show a high binding capacity for As(III) and As(V), whose presence in the drinking water in wide areas of South Asia has been a huge problem. Their high binding capacity is due to the increased adsorption sites in the M−RGO composite which occurs by reducing the aggregation of bare magnetite. Since the composites show near complete (over 99.9%) arsenic removal within 1 ppb, they are practically usable for arsenic separation from water.
Metrics
Topics
Related Documents
Water-Dispersible Magnetite-Reduced Graphene Oxide Composites for Arsenic Removal
Vimlesh ChandraJaesung ParkYoung Nam ChunJungwoo LeeIn‐Chul HwangKwang S. Kim
Water-dispersible magnetite-graphene-LDH composites for efficient arsenate removal
Xi‐Lin WuLei WangChanglun ChenAn‐Wu XuXiangke Wang
Water-dispersible magnetic nanoparticle–graphene oxide composites for selenium removal
You FuJingyi WangQingxia LiuHongbo Zeng
Covalently Linked, Water-Dispersible, Cyclodextrin: Reduced-Graphene Oxide Sheets
Highly water-dispersible methylpyridinium salt functionalized reduced graphene oxide and poly(vinyl alcohol) composites
Sangyoon LeeJeong‐Un JinJae Ryang HahnSeongwoo RyuNam‐Ho You