Abstract
The organo-clays (OCs) were prepared by a cation exchange reaction between surfactant (cetyltrimethylammonium, C16TMA) from different counterions (Bromide, Chloride, and Hydroxide). The effect of the counterions was investigated on the physico-chemical properties of the prepared organo-clays. The highest uptake of organic cations (1.60 mmol/g) was achieved using cetyl trimethylammonium bromide solution and the lowest value (0.93 mmol/g) was obtained after modification with cetyl trimethylammonium hydroxide solution starting from the same initial ratio of mmol/g of clay greater than 2.40. The arrangement of C16TMA cations within the interlayer space was assumed to be perpendicular with a tilt angle of 32° to the plane of clay sheets instead of being parallel to the clay surface using C16TMAOH solution at the same ratio. Different techniques were used to characterize these materials. The thermal stability of these organ-clays was investigated using an in-situ X-ray diffraction (XRD) technique. The decomposition of the surfactant moiety occurred at temperatures higher than 215 °C and was accompanied with a shrinkage of the basal spacing value to 1.42 nm. These materials were applied in the removal of an acid dye “eosin.” The removed amount of eosin depended on the initial concentrations and the content of surfactants in the organo-clays. The removal of eosin was found to be an endothermic process. The maximum amount of 90 mg/g was achieved. The preheated treatment temperature of two selected OCs did affect the removal properties of eosin. A progressive reduction was observed at temperatures higher than 200 °C. The regeneration of spent OCs was studied and acceptable removal efficiency was maintained after 4 to 6 cycles depending on the used initial concentrations.
Highlights
The organoclays (OCs) are attracting a lot of interest either in the academic field or in their wide applications in different industrial areas due to their availability on a large scale such as paints, rheological control agents, grease, personal care, oil well drilling, polymer nanocomposites, etc. [1,2,3].Molecules 2018, 23, 2364; doi:10.3390/molecules23092364 www.mdpi.com/journal/moleculesOne of the major applications of these materials is an environmental application and, especially in the polluted water treatment, they are used as an adsorbent or removal agent of neutral organic compounds [4,5] and colorant dyes [6]
The hydrophilic character of clay minerals was modified by surfactants with different chemical structures
The OCs are generally prepared from clay minerals that belong to 2:1 type due to their high swelling capacities
Summary
The organoclays (OCs) are attracting a lot of interest either in the academic field or in their wide applications in different industrial areas due to their availability on a large scale such as paints, rheological control agents, grease, personal care, oil well drilling, polymer nanocomposites, etc. [1,2,3].Molecules 2018, 23, 2364; doi:10.3390/molecules23092364 www.mdpi.com/journal/moleculesOne of the major applications of these materials is an environmental application and, especially in the polluted water treatment, they are used as an adsorbent or removal agent of neutral organic compounds [4,5] and colorant dyes [6]. The hydrophilic character of clay minerals was modified by surfactants with different chemical structures. The OCs are generally prepared from clay minerals that belong to 2:1 type (smectite group) due to their high swelling capacities. This property was related to the interlayer small cations and their easy hydration [8]. When clay is in contact with water, these charge-compensating cations can be exchanged or replaced by others present in the bulk of the suspension [5]. The negative surface charge of clay minerals was created by the isomorphous substitution of Al3+ for Si4+ in the tetrahedral layer and
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