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W4306367181 abstract "Eriochrome Black T (EBT) and chromium (Cr) are considered to be potential pollutants due to their toxicity and severe impact on the environment. In the current study, hydrotalcite-derived Mg-Ca-Al-LDO mixed metal oxide composite was prepared using a conventional co-precipitation method and explored in terms of the removal of Cr and EBT dye from aqueous solution in a batch mode adsorption process. The prepared Mg-Ca-Al-LDH, Mg-Ca-Al-LDO and spent Mg-Ca-Al-LDO adsorbents were characterized to propose the adsorption mechanism. Different adsorption parameters were examined, such as adsorbent dosage, initial concentration, pH, reaction temperature and contact time. The EBT adsorption kinetic results matched strongly with the pseudo-second-order model for both Cr (R2 = 0.991) and EBT (R2 = 0.999). The Langmuir isotherm model exhibited a maximum adsorption capacity of 65.5 mg/g and 150.3 mg/g for Cr and EBT, respectively. The structure and morphology results obtained after Cr and EBT dye adsorption reveal that the adsorption mechanism is associated with electrostatic interactions and surface complexation of Cr and EBT dye with Mg-Ca-Al-LDO surface functional groups. Moreover, more than 84% of the initial adsorption capacity of EBT and Cr can be achieved on the Mg-Ca-Al-LDO surface after five adsorption/desorption cycles. Finally, the Mg-Ca-Al-LDO mixed metal oxide composite can be potentially used as a cost-effective adsorbent for wastewater treatment processes." @default.
W4306367181 created "2022-10-17" @default.
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W4306367181 date "2022-10-16" @default.
W4306367181 modified "2023-10-13" @default.
W4306367181 title "Efficient Removal of Eriochrome Black T (EBT) Dye and Chromium (Cr) by Hydrotalcite-Derived Mg-Ca-Al Mixed Metal Oxide Composite" @default.
W4306367181 cites W1965725412 @default.
W4306367181 cites W1965897762 @default.
W4306367181 cites W1973847398 @default.
W4306367181 cites W1975026076 @default.
W4306367181 cites W1984209585 @default.
W4306367181 cites W1989401783 @default.
W4306367181 cites W1992882636 @default.
W4306367181 cites W1996823285 @default.
W4306367181 cites W1999985100 @default.
W4306367181 cites W2004863698 @default.
W4306367181 cites W2008518232 @default.
W4306367181 cites W2015490191 @default.
W4306367181 cites W2016212145 @default.
W4306367181 cites W2018614585 @default.
W4306367181 cites W2051581790 @default.
W4306367181 cites W2056499128 @default.
W4306367181 cites W2058630067 @default.
W4306367181 cites W2417963821 @default.
W4306367181 cites W2440425374 @default.
W4306367181 cites W2503041197 @default.
W4306367181 cites W2509869100 @default.
W4306367181 cites W2514698195 @default.
W4306367181 cites W2527154630 @default.
W4306367181 cites W2548331962 @default.
W4306367181 cites W2575473580 @default.
W4306367181 cites W2601002285 @default.
W4306367181 cites W2606304188 @default.
W4306367181 cites W2606848284 @default.
W4306367181 cites W2609051724 @default.
W4306367181 cites W2796200473 @default.
W4306367181 cites W2797940714 @default.
W4306367181 cites W2883910111 @default.
W4306367181 cites W2888636705 @default.
W4306367181 cites W2912228592 @default.
W4306367181 cites W2945141783 @default.
W4306367181 cites W2946144116 @default.
W4306367181 cites W2969573755 @default.
W4306367181 cites W2969805418 @default.
W4306367181 cites W2972315865 @default.
W4306367181 cites W2990660705 @default.
W4306367181 cites W3034093293 @default.
W4306367181 cites W3034933627 @default.
W4306367181 cites W3036275284 @default.
W4306367181 cites W3046303592 @default.
W4306367181 cites W3087981532 @default.
W4306367181 cites W3088264701 @default.
W4306367181 cites W3093050313 @default.
W4306367181 cites W3112404537 @default.
W4306367181 cites W3118755381 @default.
W4306367181 cites W3128424187 @default.
W4306367181 cites W3133194489 @default.
W4306367181 cites W3143634752 @default.
W4306367181 cites W3161308172 @default.
W4306367181 cites W3177281314 @default.
W4306367181 cites W3184152720 @default.
W4306367181 cites W3190813375 @default.
W4306367181 cites W3202751358 @default.
W4306367181 cites W3203447933 @default.
W4306367181 cites W3213267075 @default.
W4306367181 cites W4210517084 @default.
W4306367181 cites W4211212668 @default.
W4306367181 cites W4221092875 @default.
W4306367181 cites W4223561216 @default.
W4306367181 cites W4281709272 @default.
W4306367181 cites W4282830072 @default.
W4306367181 cites W4283370250 @default.
W4306367181 cites W4292056539 @default.
W4306367181 cites W4292550133 @default.
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W4306367181 doi "https://doi.org/10.3390/catal12101247" @default.
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