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  1 - Synthesis, Identification and Calculation of Complex Crystallographic Structure of Cobalt (II) with theLigand Heterocyclic Derived from Pyridine
  Mohammad Mahdi Akbarzadeh Khirollah Mehrani Shahriar Ghammamy Vahideh Hadigheh Rezvan
  A novel Pyridine-2,6-dicarboxylic acid mixed ligands complex of formula [Co(NO3)2].6H2O has been obtained by the reaction of Pyridine-2,6-dicarboxylic acid with cobalt nitrate and 1,10-phenanthroline on heating in water. The structures of [Co(pydc)(Phen)(H2O)](pydcH2).4 More

  A novel Pyridine-2,6-dicarboxylic acid mixed ligands complex of formula [Co(NO3)2].6H2O has been obtained by the reaction of Pyridine-2,6-dicarboxylic acid with cobalt nitrate and 1,10-phenanthroline on heating in water. The structures of [Co(pydc)(Phen)(H2O)](pydcH2).4H2O receptors, and their complexes were optimized using DFT method at the B3LYP/3-21G** level. The highest occupied molecular orbital (EHOMO) and the lowest unoccupied molecular orbital (ELUMO) energies have been derived at the same level of theory. All the calculations were performed using the GAUSSIAN 03 program. The optimized geometries and frequencies of the stationary point are calculated at the B3LYPlevel of theory. The large HOMO-LUMO energy gap, both in neutral and anionic form, further provide evidence of their stability.Complex structure of the protein withamino acid groups is shown. All chemicals purchased were of reagent grade or better and were used without further purification. Manuscript profile
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  2 - Density functional theory study of the structural properties of cis-trans isomers of bis-(5-nitro-2H-tetrazolato-N2) tetraammine cobalt (III) perchlorate (BNCP)
  Mehdi Nabati
  In present study, the density functional theory (DFT-B3LYP) method with SVP basis set was used for optimizing and studying the electronic structural properties of cis and trans isomers of bis-(5-nitro-2H-tetrazolato-N2) tetraammine cobalt (III) perchlorate (BNCP) as pow More

  In present study, the density functional theory (DFT-B3LYP) method with SVP basis set was used for optimizing and studying the electronic structural properties of cis and trans isomers of bis-(5-nitro-2H-tetrazolato-N2) tetraammine cobalt (III) perchlorate (BNCP) as powerful explosives at 298.15 K temperature and 1 atmosphere pressure. And also, Natural Bond Orbital (NBO) population analysis and the molecular electrostatic potential (MEP) surface of the structures were studied by mentioned level of theory. The effect of ligands sites attached to the transition metal (cobalt) at the BNCP isomers was studied on the HOMO-LUMO energies, the electronic chemical potential, the absolute hardness and electrophilicity index. The geometry optimization of the structures shows the octahedral environment around cobalt. The tetrazole nitrogen atoms have large negative charge. The three-dimensional electrostatic potential maps of the isomers show that the negative charge is located on the nitro and perchlorate groups. The NBO analysis shows that the Co-ligand bonds in the near of perchlorate ion are formed from short, strong and sigma bonds. Manuscript profile
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  3 - DFT Study of Phenanthrene adsorption on a BN Nano-Ring
  Mehrnoosh Khaleghian Fatemeh Azarakhshi Masoome Sheikhi
  To investigate non-bonded interaction of Phenanthrene and BN nanostructure, geometric structure of Phenanthrene and B12N12 nano-ring with B3LYP method and 6-31g* basis set are optimized by using ab initio gaussian quantum chemical package. The main purpose of this study More

  To investigate non-bonded interaction of Phenanthrene and BN nanostructure, geometric structure of Phenanthrene and B12N12 nano-ring with B3LYP method and 6-31g* basis set are optimized by using ab initio gaussian quantum chemical package. The main purpose of this study was to evaluate changes of electronic properties of aromatic compound in presences Nano ring field. Therefore reactivity and stability of Phenanthrene alone and in the presence of B12N12 nanoring checked by density functional theory. To studying the non-bonded interaction energies between Phenanthrene and B12N12 nano-ring at the first time we determined the best orientation and distance of optimized structure and then NBO and NMR calculations have been done that explains reduce the reactivity, increase stability of Phenanthrene. So that shows HOMO orbitals matches the Phenanthrene and LUMO orbitals matches the Nano ring. Then charge transfer of Phenanthrene and Phenanthrene -B12N12 studies that represents the flow of electrons from the Nano ring to the Phenanthrene. Manuscript profile
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  4 - Theoretical investigations on molecular structure, NBO, HOMO-LUMO and MEP analysis of two crystal structures of N-(2-benzoyl-phenyl) oxalyl: A DFT study
  Masoome Sheikhi Ebrahim Balali Hadi Lari
  The N-(2-benzoyl-phenyl) oxalyl derivatives are important models for studying of three-centered intramolecular hydrogen bonding in organic molecules. The quantum theoretical calculations for two crystal structures of N-(2-benzoyl-phenyl) oxalyl (compounds I and II) were More

  The N-(2-benzoyl-phenyl) oxalyl derivatives are important models for studying of three-centered intramolecular hydrogen bonding in organic molecules. The quantum theoretical calculations for two crystal structures of N-(2-benzoyl-phenyl) oxalyl (compounds I and II) were performed by Density Functional Theory (B3LYP method and 6-311+G* basis set). From the optimized structures, geometric parameters were obtained and experimental measurements were compared with the calculated data. The NMR parameters such as chemical shift isotropic (CSI) and chemical shift anisotropic (CSA), natural charge (NBO), thermodynamic parameters such as relative energy (ΔE), standard enthalpies (ΔH), entropies (ΔS), Gibbs free energy (ΔG) and constant volume molar heat capacity (Cv), frontier molecular orbitals (FMOs), total density of states (DOS), molecular electrostatic potential (MEP) of the two structures were investigated by theoretical calculations. Molecular properties such as Ionisation Potential (I), Electron affinity (A), chemical hardness (η), electronic chemical potential (μ) andelectrophilicity (ω) obtained and three-centered intramolecular hydrogen bonding were investigated by NBO analysis. Manuscript profile
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  5 - A computational study of lipophilicity of E-2-arylmethylen-1-tetralones and their heteroanalogues using QSAR and DFT Based Molecular surface Electrostatic Potential
  Sharieh Hosseini Mohammad Reza Gholami Mohammad Haghgu
  E-2-Arylmethylen-1- tetralones and E-3-phenylme thylene chromanone-4-ones and their derivatives closely related to flavonoids belong to the plant secondary metabolites most investigated recently.The class of flavonoids is an enormous class of plant secondary metabolites More

  E-2-Arylmethylen-1- tetralones and E-3-phenylme thylene chromanone-4-ones and their derivatives closely related to flavonoids belong to the plant secondary metabolites most investigated recently.The class of flavonoids is an enormous class of plant secondary metabolites having so different pharmacological effects as inhibition of nitric oxide synthasecancer preventive effect or potential impact on the etiology of certain vascular disease.Numerous biological activity have been attributed to the tetralones mentioned. In this study B3P86/6-31++G* was used to compute and map the molecular surface electrostatic potentials of a group of tetralones and chromanones to identify common features related to their lipophilicity. Several statistical properties including potentials extrema (Vs,min, Vs,max), the average of positive electrostatic potential on the surface (Vst), the average of V(r), over the surface (Vs) and the variance of V(r) over the surface (62-) and system lipophilicity were computed. Statistically, the most significant correlation is a three parameter equation with correlation coefficient, R value of 0.881 and R2adj=0.743. The obtained models allowed us to reveal lipophilicity activity of tetralones. Manuscript profile
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  6 - Electronic effects at 2 and 7 α–position of divalent unsaturated seven membered ring R2C6H6M (M=C, Si, Ge, Sn, Pb)
  Eynallah Abolfathi
  Electronic effects were investigated on the singlettriplet energy gaps of divalent unsaturated seven- membered ring R2C6H6M (M=C, Si, Ge, Sn, Pb, R= H, -CH3, i-Pr , t-Bu) at B3LYP/6-311++G** level. All the triplet states of R2C6H6C were more stable than the related the More

  Electronic effects were investigated on the singlettriplet energy gaps of divalent unsaturated seven- membered ring R2C6H6M (M=C, Si, Ge, Sn, Pb, R= H, -CH3, i-Pr , t-Bu) at B3LYP/6-311++G** level. All the triplet states of R2C6H6C were more stable than the related the singlet states while all the singlet states of R2C6H6M (M= Si, Ge, Sn, Pb, R= H, -CH3, i-Pr , t-Bu) were more stable than the related triplet states. The ∠C2-M1-C7 angle of all the triplet states of R2C6H6M is larger than their singlet states. Calculated dihedral angles indicated a nonplanar structure for both singlet and triplet states of R2C6H6M. The NBO charge at heteroatom center (M) of R2C6H6M (M=C, Si, Ge, Sn, Pb, R= H, -CH3, i-Pr , t-Bu) for both singlet and triplet states were generally increased when the bulky substituent (R = t-Bu) were placed at 2 and 7 (αposition) of seven membered ring. The chemical hardness (η) value for triplet states of R2C6H6M (M=C, Si, Ge, Sn R= H, -CH3, i-Pr , t-Bu) were larger than the corresponding singlet states. A linear correlation was found between the LUMOHOMO energy gaps of the singlet species, and their corresponding ΔGts.. Manuscript profile
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  7 - The Effect of Aluminum, Gallium, Indium- Doping on the Zigzag (5, 0) Boron-Nitride Nanotubes: DFT, NMR, Vibrational, Thermodynamic Parameters and Electrostatic Potential Map with Electrophilicity Studies
  Reza Soleymani
  Influence of Aluminum, Gallium, Indium- Doping on the Boron-Nitride Nanotubes (BNNTs) investigated with density functional theory (DFT) and Hartreefock (HF) methods. For this purpose, the chemical shift of difference atomic nucleus was studied using the gauge included a More

  Influence of Aluminum, Gallium, Indium- Doping on the Boron-Nitride Nanotubes (BNNTs) investigated with density functional theory (DFT) and Hartreefock (HF) methods. For this purpose, the chemical shift of difference atomic nucleus was studied using the gauge included atomic orbital (GIAO) approch. In the following, structural parameter values, electrostatic potential, thermodynamic parameters, chemical hardness, chemical potentials, the Maximum amount of electronic charge transfer, electrophilicity and electronegativity for the tittle structure was studied in different states. Our results show that doping of Aluminum, Gallium, Indium atoms to the nanotube surface leading to changesin theIsotropic Chmical Shift, Anisotropic Chemical Shift, also chemical and the rmodynamic parameters will follow the regular process changes. Manuscript profile
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  8 - Investigation of Variations of Isotropic g- and A- Values with Orientation of Trapped O2−, N2− and Cl2− Radicals in KCl and NaCl Crystals
  Fatih Ucun Serkan Kaya
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  9 - Application of topological and physicochemical descriptors: QSTR analysis of the toxicity of benzene derivatives
  H. Hosseini F. Shafiei
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