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W4312126151 endingPage "256" @default.
W4312126151 startingPage "256" @default.
W4312126151 abstract "In this study, the adsorption capability of MgO nanorods for the quick and effective elimination of Cu(II) and Pb(II) heavy metals from wastewater was examined. The MgO nanorods were produced via simple coprecipitation process. Various characterization techniques were used to investigate the morphological and chemical properties of the as-prepared nanomaterial. Moreover, the influences of initial heavy-metal ion concentration, pH, and contact time were investigated to evaluate the removal efficiency of the nanomaterials. The adsorption process followed pseudo-second order and Langmuir adsorption isotherm models, according to kinetics and isotherm investigations, respectively. MgO nanoparticles exhibited a high adsorption capacity for Cu(II) (234.34 mg/g) and Pb(II) (221.26 mg/g). The existence of interfering ions in the aqueous solution leads to a decrease in the adsorption capacity. Surface complexation was determined as the key contributor to the adsorption of Cu(II) and Pb(II) heavy-metal ions onto MgO nanorods. Notably, regeneration experiments demonstrate the potential applicability of MgO nanorods for the elimination of Pb(II) and Cu(II) from aqueous solution." @default.
W4312126151 created "2023-01-04" @default.
W4312126151 creator A5020182754 @default.
W4312126151 creator A5071664359 @default.
W4312126151 creator A5073821937 @default.
W4312126151 creator A5080160247 @default.
W4312126151 date "2022-12-11" @default.
W4312126151 modified "2023-10-14" @default.
W4312126151 title "Efficient and Rapid Removal of Pb(II) and Cu(II) Heavy Metals from Aqueous Solutions by MgO Nanorods" @default.
W4312126151 cites W1115644383 @default.
W4312126151 cites W1200674078 @default.
W4312126151 cites W1947921888 @default.
W4312126151 cites W1956260469 @default.
W4312126151 cites W1973486518 @default.
W4312126151 cites W1975997925 @default.
W4312126151 cites W1996455290 @default.
W4312126151 cites W1998220748 @default.
W4312126151 cites W1998447157 @default.
W4312126151 cites W2000815916 @default.
W4312126151 cites W2008612598 @default.
W4312126151 cites W2034341278 @default.
W4312126151 cites W2048504787 @default.
W4312126151 cites W2049137061 @default.
W4312126151 cites W2068444425 @default.
W4312126151 cites W2071678608 @default.
W4312126151 cites W2085446673 @default.
W4312126151 cites W2093993521 @default.
W4312126151 cites W2119824987 @default.
W4312126151 cites W2159727241 @default.
W4312126151 cites W2553806002 @default.
W4312126151 cites W2555011451 @default.
W4312126151 cites W2579952758 @default.
W4312126151 cites W2603713842 @default.
W4312126151 cites W2752698709 @default.
W4312126151 cites W2753962912 @default.
W4312126151 cites W2769013504 @default.
W4312126151 cites W2789790695 @default.
W4312126151 cites W2794368668 @default.
W4312126151 cites W2884075193 @default.
W4312126151 cites W2889181964 @default.
W4312126151 cites W2908409922 @default.
W4312126151 cites W2915032976 @default.
W4312126151 cites W2949962048 @default.
W4312126151 cites W2955922041 @default.
W4312126151 cites W2965068656 @default.
W4312126151 cites W2967328676 @default.
W4312126151 cites W2968550441 @default.
W4312126151 cites W2974725347 @default.
W4312126151 cites W2993420782 @default.
W4312126151 cites W2998800747 @default.
W4312126151 cites W3000207538 @default.
W4312126151 cites W3001769722 @default.
W4312126151 cites W3007133764 @default.
W4312126151 cites W3015304519 @default.
W4312126151 cites W3015406878 @default.
W4312126151 cites W3019783349 @default.
W4312126151 cites W3022651367 @default.
W4312126151 cites W3025895358 @default.
W4312126151 cites W3032221254 @default.
W4312126151 cites W3036295153 @default.
W4312126151 cites W3087764612 @default.
W4312126151 cites W3088423364 @default.
W4312126151 cites W3091717270 @default.
W4312126151 cites W3094529046 @default.
W4312126151 cites W3108731128 @default.
W4312126151 cites W3126438556 @default.
W4312126151 cites W3139386419 @default.
W4312126151 cites W3157523153 @default.
W4312126151 cites W3159278088 @default.
W4312126151 cites W3167640006 @default.
W4312126151 cites W3172764414 @default.
W4312126151 cites W3192060166 @default.
W4312126151 cites W3193566647 @default.
W4312126151 cites W3204178925 @default.
W4312126151 cites W3207840642 @default.
W4312126151 cites W3217222174 @default.
W4312126151 cites W4200380968 @default.
W4312126151 cites W4200393620 @default.
W4312126151 cites W4220695565 @default.
W4312126151 cites W4224228954 @default.
W4312126151 cites W4282561839 @default.
W4312126151 cites W4294234153 @default.
W4312126151 cites W4308868581 @default.
W4312126151 doi "https://doi.org/10.3390/inorganics10120256" @default.
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