Abstract
A number of multifunctional composite adsorbents based on hydrated zirconium dioxide has been synthesized. The inorganic ion exchanger contained nanosheets of oxidized graphene (GO), the modifier amount was 0.5–7 mass. %. The composites were investigated with methods of transmission electron microscopy and nitrogen adsorption-desorption, macropores were determined using water as a working liquid. It has been found that increasing of GO content depresses microporosity, but meso- and macroporosity grow. Crushing strength reduces exponentially with increase of total pore volume from 0.49 to 0.62 cm 3 g – 1 . Removal of phenol from water containing also inorganic ions was investigated. Adsorption capacity reaches 0.15–0.85 (phenol), 0.5–0.85 (Ca 2+ and Mg 2+ ), 0.005–0.045 (SO 4 2 – ) mmol g – 1 . When the GO content in the composites is 0.5–2 %, this carbon addition improves adsorption of cations and organic molecules comparing with hydrated zirconium dioxide. Further increase in GO amount causes no sufficient effect on adsorption due to decline of specific surface area of the composites. It has been suggested that the optimal content of the modifier, which provides the maximal growth of adsorption capacity, is 2 %. This composite is obtained in a form of large granules (0.3–0.5 mm), their crushing strength is 9 bar. The material was applied to removal of pesticides (acetomipride, carboxine, epoxyconazole and thiamethoxam) from aqueous multicomponent solution under batch conditions. The residual content of carboxine and epoxyconazole, molecules of which contain benzene rings, is lower than the maximal allowable concentration. No deterioration of pesticide uptake has been found after five cycles of adsorption-regeneration.
Highlights
Graphene oxide (GO) and graphene-like materials are produced from graphite by means of aggressive chemical reagents, which provide its exfoliation, lamination and oxidation [1,2,3]
Earlier we investigated the composite containing GO obtained from graphite [10]
The primary hydrated zirconium dioxide (HZD) nanoparticles cannot be recognized with a TEM method, since they are coated with GO
Summary
Graphene oxide (GO) and graphene-like materials are produced from graphite by means of aggressive chemical reagents, which provide its exfoliation, lamination and oxidation [1,2,3]. Nanosized flakes are obtained by this manner, their thickness is 0.54 nm, i.e. one atom (GO) or several nanometers (graphene-like materials). There are carboxyl groups along the flake perimeter, it is valid for a part of phenolic groups. Other part of them as well as epoxy groups are located on different sides of the flake planes. The flakes form mechanically durable aggregates and agglomerates, the sheets forming by this manner are overlapped and curled. The capability of GO to aggregation allows one to obtain graphene paper [4, 5] and even membranes [6, 7]
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