Ultra-deep removal of Pb by functionality tuned UiO-66 framework : A combined experimental, theoretical and HSAB approach
Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review
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Detail(s)
Original language | English |
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Article number | 131305 |
Journal / Publication | Chemosphere |
Volume | 284 |
Online published | 25 Jun 2021 |
Publication status | Published - Dec 2021 |
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Abstract
A specific functionality in the adsorbent materials plays a significant role for the selective capture of heavy metals based on Pearson's Hard-Soft-Acid-Base (HSAB) concept. Herein, we introduced single and double amino- and thiol-functionalities into the UiO-66 framework, which acted as hard and soft base sites for heavy metal adsorption, respectively. The synthesized adsorbents (labelled as NH2-UiO-66, (NH2)2-UiO-66, SH-UiO-66 and (SH)2-UiO-66) were applied for the selective removal of lead (Pb) ions from contaminated water. The removal efficiency of Pb was about 64, 85, 75 and 99% (pH = 6, T = 30 °C, sample dosage = 10 mg, Pb concentration = 100 mg L−1), respectively, based on available number of interacting sites in the respective adsorbent. To elaborate HSAB concept, the interacting sites of these functional groups towards Pb were explored by identifying their possible types of interactions in terms of soft acid-base affinity, coordinate and covalent bonding, chelation, π-π interactions and synergetic effect of bonding. Density functional theory (DFT) simulation was used to confirm these interactions and to help the better understanding of adsorption mechanism. Model fitting and characterization of Pb-sorbed adsorbents were also performed to reveal kinetics, order of adsorptive reaction, thermodynamics and adsorption mechanism. Moreover, the optimization of adsorptive removal was performed by controlled parameters including time, initial concentration, pH and temperature. The reusability and selectivity of these adsorbents along with recovery of Pb(II) were also assessed. This study presents the conceptual framework for the design of functional adsorbents in the removal of heavy metals using the HSAB principle as an intended guideline.
Research Area(s)
- MOF, Changed functionality, Pb(II) adsorption, Hard-soft-acid-base, DFT simulation, Mechanism
Citation Format(s)
Ultra-deep removal of Pb by functionality tuned UiO-66 framework: A combined experimental, theoretical and HSAB approach. / Ali, Shafqat; Zuhra, Zareen; Ali, Sajjad et al.
In: Chemosphere, Vol. 284, 131305, 12.2021.
In: Chemosphere, Vol. 284, 131305, 12.2021.
Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review