Scientific Reports (Oct 2023)

Exploring the promising application of Be12O12 nanocage for the abatement of paracetamol using DFT simulations

  • Sana Gul,
  • Kainat,
  • Qaisar Ali,
  • Momin Khan,
  • Munir Ur Rehman,
  • Abdullah F. AlAsmari,
  • Fawaz Alasmari,
  • Metab Alharbi

DOI
https://doi.org/10.1038/s41598-023-45674-3
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 11

Abstract

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Abstract The removal of paracetamol from water is of prime concern because of its toxic nature in aquatic environment. In the present research, a detailed DFT study is carried out to remove paracetamol drug from water with the help of Be12O12 to eliminate the related issues. Three different geometries (CMP-1, CMP-2, CMP-3,) are obtained with the highest adsorption energies value (E ads) of − 31.2316 kcal/mol for CMP-3 without any prominent structural change. It is observed from the study that O atom from the carbonyl group (C=O) and H atom from O–H group successfully interact with O and Be atoms of the nanocage respectively. Natural bonding orbitals analysis reveals charge transfer to paracetamol drug from Be12O12 nanocage with maximum charge transfer of − 0.159 e for CMP-3 with bond angle of 1.65 Å confirming the stability of the CMP-3 among the optimized complexes. The quantum theory of atoms in molecule concludes that the interaction between paracetamol drug molecule and Be12O12 is purely closed-shell weak electrostatic in nature in CMP-1 and CMP-3 and shared interaction in CMP-2. The thermodynamics analysis witnesses that the process is exothermic and spontaneous. The regeneration study reveals the reversible nature of the adsorbent. The overall study presents Be12O12 nanocage as a potential adsorbent and may be used in future for the purification of water from a number of emerging pollutants.