فهرس المقالات (R)-Limonene

• حرية الوصول المقاله
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  1 - Analysis of the Chemical Reactivity of Limonene by the Functional Density Theory Method Using Global Descriptors
  Hayat EL Ouafy Tarik EL Ouafy Mustapha Oubenali Aziz EL Haimouti Ahmed Gamouh Mohamed Mbarki
  10.22034/jchr.2021.1910282.1189
  The optimized molecular geometry is interpreted using structural optimizations based on the Functional Density Theory (DFT) method. Additionally, we used B3LYP / 6-311G (d, p) to determine the chemical descriptor, the ionization potential (I), the electron affinity (A), أکثر

  The optimized molecular geometry is interpreted using structural optimizations based on the Functional Density Theory (DFT) method. Additionally, we used B3LYP / 6-311G (d, p) to determine the chemical descriptor, the ionization potential (I), the electron affinity (A), the chemical potential (μ), the chemical hardness (η), 3D maps of HOMO and LUMO orbits were used to develop the structure, activity, and structure of quantitative relationships. Large basis set-theoretical calculations of the dipole polarizabilities and second hyperpolarizabilities of limonene molecules have been carried out and the results have been used to assess optical properties of atomic contributions to the overall molecular response tensors. Reasonable estimates of the mean second hyperpolarizability response can be obtained from summing atomic parameters obtained here, though the reliability of the estimates is worse than what is found for dipole polarizabilities. The DFT method has been used of which is to compare the angles and lengths of molecular bonds with the experimental results. To understand molecular interactions in a given molecule, electrostatic molecular potential (MEP) is a crucial tool. Also, the sites of relative reactivity for electrophilic and nucleophilic attacks. Theoretical studies of the molecules of (R)-limonene and (S)-limonene made it possible to confirm the results obtained experimentally. تفاصيل المقالة