Your search keyword '"da Silva, João Bosco P."' showing total 2 results

1. Theoretical calculations of the molecular properties of maleimide and its dimer.

Author

Aguiar EC, da Silva JB, and Ramos MN

Subjects

Amides chemistry, Carbon chemistry, Dimerization, Hydrogen chemistry, Hydrogen Bonding, Models, Chemical, Models, Theoretical, Molecular Structure, Oscillometry, Oxygen chemistry, Protein Binding, Spectrophotometry, Infrared methods, Static Electricity, Thermodynamics, Maleimides chemistry

Abstract

B3LYP theoretical calculations with 6-31++G(d,p) basis set have been performed to study the infrared spectrum of maleimide and its dimer. Our calculations have shown that the dimer formation leads to a binding energy of 44.0 kJ mol(-1) involving two intermolecular hydrogen bonds between the amide hydrogen and a carbonyl group of two neighboring maleimides. This value is essentially due to the electrostatic interaction term. Our calculations have also revealed the vibrational changes, in terms of frequencies and IR intensities, after dimer formation. The most affected modes are associated with the N-H stretching and in-plane bending bands. This behavior can be adequately interpreted by the hydrogen atomic charge and N-H charge-flux based on the modified charge-charge flux-overlap model for infrared intensities. The B3LYP frequency shifts are in very good agreement with the experimental ones.

Published

2008

2. A theoretical study of hydrogen complexes of the XH-pi type between propyne and HF, HCL or HCN.

Author

Tavares AM, da Silva WL, Lopes KC, Ventura E, Araújo RC, do Monte SA, da Silva JB, and Ramos MN

Subjects

Hydrogen Bonding, Thermodynamics, Vibration, Alkynes chemistry, Hydrochloric Acid chemistry, Hydrofluoric Acid chemistry, Hydrogen Cyanide chemistry

Abstract

The present manuscript reports a systematic investigation of the basis set dependence of some properties of hydrogen-bonded (pi type) complexes formed by propyne and a HX molecule, where X=F, Cl and CN. The calculations have been performed at Hartree-Fock, MP2 and B3LYP levels. Geometries, H-bond energies and vibrational have been considered. The more pronounced effects on the structural parameters of the isolated molecules, as a result of complexation, are verified on RCtriple bondC and HX bond lengths. As compared to double-zeta (6-31G**), triple-zeta (6-311G**) basis set leads to an increase of RCtriple bondC bond distance, at all three computational levels. In the case where diffuse functions are added to both hydrogen and 'heavy' atoms, the effect is more pronounced. The propyne-HX structural parameters are quite similar to the corresponding parameters of acetylene-HX complexes, at all levels. The largest difference is obtained for hydrogen bond distance, RH, with a smaller value for propyne-HX complex, indicating a stronger bond. Concerning the electronic properties, the results yield the following ordering for H-bond energies, DeltaE: propynecdots, three dots, centeredHF>propynecdots, three dots, centeredHCl>propynecdots, three dots, centeredHCN. It is also important to point out that the inclusion of BSSE and zero-point energies (ZPE) corrections cause significant changes on DeltaE. The smaller effect of ZPE is obtained for propynecdots, three dots, centeredHCN at HF/6-311++G** level, while the greatest difference is obtained at MP2/6-31G** level for propynecdots, three dots, centeredHF system. Concerning the IR vibrational it was obtained that larger shift can be associated with stronger hydrogen bonds. The more pronounced effect on the normal modes of the isolated molecule after the complexation is obtained for HX stretching frequency, which is shifted downward.

Published

2006