Hierarchical Fe3O4‐derived organic/inorganic hybrids constructed by modified bio‐inspired functionalization: efficient adsorbents for water‐soluble methylene blue and mechanism

Abstract

AbstractBackgroundThe development of efficient and sustainable adsorbents is still a challenge for dye removal in practical applications. Here a method to prepare hierarchical Fe3O4‐derived organic/inorganic hybrid adsorbents for methylene blue removal is demonstrated. Typically, two different structured magnetic nanoparticles were synthesized through solvothermal route and chemical co‐precipitation (named as S‐Fe3O4 and C‐Fe3O4 respectively), which were further functionalized by a novel modified mussel‐inspired method with dopamine (DA) and (3‐aminopropyl)triethoxysilane (KH550), thus obtaining core‐shell Fe3O4/poly(DA + KH550) adsorbents.ResultsThe effects of microstructure, morphology and surface functionalization on the adsorption performance of core‐shell Fe3O4 adsorbents were systematically investigated, thus achieving target structurally optimized core‐shell Fe3O4 adsorbents. Especially, the maximum adsorption capacity of core‐shell S‐Fe3O4/poly(DA + KH550) adsorbent reached 400.00 mg g−1 because of high specific surface area and abundant active adsorption sites. In addition, the adsorption kinetics and adsorption isotherm fitted a pseudo‐second‐order model and Langmuir model respectively.ConclusionThe recycling process of adsorbent is sustainable in economy and energy by applying an external permanent magnet. In summary, the high adsorption capacity, easy separation and excellent reusability of S‐Fe3O4/poly(DA + KH550) core‐shell adsorbents make them promising for dye effluent removal. © 2019 Society of Chemical Industry