2021
DOI: 10.1016/j.jenvman.2020.111469
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Ion exchange based approach for rapid and selective Pb(II) removal using iron oxide decorated metal organic framework hybrid

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Cited by 91 publications
(22 citation statements)
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“…Beyond pH 1.2, however, the trend followed that of a previous study in which the maximum adsorption efficiency of Pb 2+ ions was found at low pH, and the value decreased as the pH increased. The decreasing adsoption efficiency at increasing pH showed that the adsorption mechanism most likely occurred via chemical interaction or substitution process instead of electrostatic forces (Goyal et al, 2021). The optimum adsorption of Pb 2+ in MIL-100(Fe), as reported previously by Forghani et al (2020), was ~65% at a pH 5.5.…”
Section: Stability Test Of Materials In the Intestinal And Stomach Simulation Medium And Watersupporting
confidence: 65%
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“…Beyond pH 1.2, however, the trend followed that of a previous study in which the maximum adsorption efficiency of Pb 2+ ions was found at low pH, and the value decreased as the pH increased. The decreasing adsoption efficiency at increasing pH showed that the adsorption mechanism most likely occurred via chemical interaction or substitution process instead of electrostatic forces (Goyal et al, 2021). The optimum adsorption of Pb 2+ in MIL-100(Fe), as reported previously by Forghani et al (2020), was ~65% at a pH 5.5.…”
Section: Stability Test Of Materials In the Intestinal And Stomach Simulation Medium And Watersupporting
confidence: 65%
“…The adsorption capacity increased significantly with increasing concentrations of Pb 2+ , as indicated by the large number of ions adsorbed per area of adsorbent. Furthermore, the large number of ions is also the driving force for the transfer of Pb 2+ ions from the solution to the adsorbent (Goyal et al, 2021). By contrast, the adsorption efficiency decreased as the concentration of Pb 2+ increased due to the competition among the overcrowded Pb 2+ ions.…”
Section: Effect Of Contact Timementioning
confidence: 99%
“…These advantages allow us to design ideal materials for different purposes through different experimental methods. MOFs are also used in a wide variety of applications including gas separation [5,6], sensing [7], gas adsorption [8,9], selective catalysis [10,11], ion exchange [12], ultra-high purity separation [13], protein hydrolysis [14], as well as in biological conductive materials, photoelectric materials, new semiconductor materials, magnetic materials and in the field of chip development [15][16][17][18][19]. With this vast array of possibilities, high expectations have been laid on MOFs and its composite materials.…”
Section: Introductionmentioning
confidence: 99%
“…[9][10][11] Therefore, removing these heavy metal ions is an important part of solving water pollution. People have developed various strategies to remove heavy metal ions from polluted water such as chemical precipitation method, [12] ion exchange, [13][14][15][16] flocculation, [17] filtration, [18][19][20] and membrane separation. [21,22] However, especially in the case of trace concentrations, these strategies are limited by high costs and even inefficient in removing certain heavy metal ions.…”
Section: Introductionmentioning
confidence: 99%