A first-principles investigation of Cr adsorption on C and BN nanocages in aqueous mediums

Heavy metal removal from polluted environments is one of the vital research areas for better and healthier living. In this research, C 8 and B 4 N 4 nanocage-like quantum dots are investigated for heavy metal (Cr) removal applications via density functional theory calculations. The adsorption of up...

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Published in:Physical chemistry chemical physics : PCCP 2023-11, Vol.25 (46), p.32261-32272
Main Authors: Ahmed, Mohammad Tanvir, Roy, Debashis, Roman, Abdullah Al, Islam, Shariful, Ahmed, Farid
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Summary:Heavy metal removal from polluted environments is one of the vital research areas for better and healthier living. In this research, C 8 and B 4 N 4 nanocage-like quantum dots are investigated for heavy metal (Cr) removal applications via density functional theory calculations. The adsorption of up to two Cr atoms has been studied in both air and a water medium. The adsorption of Cr atoms results in significant structural deformation of the adsorbents with a high adsorption energy of −8.74 and −5.77 eV for C 8 and B 4 N 4 nanostructures, respectively, which is further increased with an increasing number of Cr atoms. All adsorbents and complex structures showed real vibrational frequencies. Mulliken charge and electrostatic potential analysis reveal a significant charge transfer between adsorbate-adsorbent. The adsorption process causes a decrease in the energy gap of the adsorbents. All the reactions in this study were spontaneous and thermodynamically ordered. QTAIM analysis verifies that the interactions of the adsorbents with Cr atoms are strong partial covalent. The study's findings make C 8 and B 4 N 4 nanostructures potential candidates for Cr-detection and removal applications. Chromium metal removal from polluted environments using C 8 and B 4 N 4 nanocages.
ISSN:1463-9076
1463-9084
DOI:10.1039/d3cp04225a