Chemical Physics Impact (Dec 2023)

Chemical modifications of boron nitride nanotubes with heterocyclic molecules: A DFT study

  • Abdelmajeed Adam Lagum,
  • Wathiq Kh. Mohammed,
  • Eyhab Ali,
  • Sahar balkit hussein,
  • Usama S. Altimari,
  • Ashwaq Talib Kareem,
  • Ali Alsalamy,
  • Ameer S. Alkhayyat,
  • Hashem Al-Shaaban

Journal volume & issue
Vol. 7
p. 100343

Abstract

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The density functionals M06–2X and B3LYP were exploited for investigating the impact of modifying the surface of a boron nitride nano-tube (BNNT) with the furan molecule in terms of energy, electronics, and geometry. According to the density functional theory (DFT) results, BNNT had a strong interaction with the furan molecule. So, the adhesion of the furan molecule onto the surface of BNNT was consistent with the chemical functionalization. Furthermore, the computed density of states indicated that the electronic features of the BNNT were adjusted with a partial chemical modification. Also, the functional energy raised by enhancing the electron donation property of the functional groups, which was due to the rise in the electrical conductance of BNNT in contrast with the pristine BNNT. Retaining the electronic features of BNNT and the increased solubility demonstrated that using furan to chemically modify BNNTs could be a useful method to purify them.

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