Your search keyword '"Estructura electrónica"' showing total 4 results

1. Experimental and ab initio studies of the reactive processes in gas phase i-C3H7Br and i-C3H7OH collisions with potassium ions

Author

E. López, Josep M. Lucas, Margarita Albertí, Josep Maria Bofill, A. Aguilar, Davide Bassi, and J. de Andrés

Subjects

Excitation function, Col·lisions (Física), Electronic structure, Ion beam, Chemistry, Physical and theoretical chemistry, Ab initio, General Physics and Astronomy, Estructura electrònica, Potential energy, Ion, Reaction coordinate, Reaccions químiques, Ab initio quantum chemistry methods, Chemical reactions, Química física, Physical and Theoretical Chemistry, Atomic physics, Collisions (Physics), Ground state

Abstract

Collisions between potassium ions and neutral i-C3H7Br and i-C3H7OH, all in their electronic ground state, have been studied in the 0.10-10.00 eV center of mass (CM) collision energy range, using the radiofrequency-guided ion beam technique. In K(+) + i-C3H7Br collisions KHBr(+) formation was observed and quantified, while the analogous KH2O(+) formation in K(+) + i-C3H7OH was hardly detected. Moreover, formation of the ion-molecule adducts and their decomposition leading to C3H7(+) and either KBr or KOH, respectively, have been observed. For all these processes, absolute cross-sections were measured as a function of the CM collision energy. Ab initio structure calculations at the MP2 level have given information about the potential energy surfaces (PESs) involved. In these, different stationary points have been characterized using the reaction coordinate method, their connectivity being ensured by using the intrinsic-reaction-coordinate method. From the measured excitation function for KHBr(+) formation the corresponding thermal rate constant at 303 K has been calculated. The topology of the calculated PESs allows an interpretation of the main features of the reaction dynamics of both systems, and in particular evidence the important role played by the potential energy wells in controlling the reactivity for the different reaction channels.

Published

2014

2. Critical analysis and extension of the Hirshfeld atoms in molecules

Author

Paul W. Ayers, Patrick Bultinck, Ramon Carbó-Dorca, and Christian Van Alsenoy

Subjects

Electronic structure, Iterative methods, Iterative method, Entropy, General Physics and Astronomy, Estructura electrònica, Molecular dynamics, Electrostatics, Quantum mechanics, Computer Science::Logic in Computer Science, Molecule, Entropy (information theory), Dinàmica molecular, Statistical physics, Physical and Theoretical Chemistry, Chemistry, Enllaços químics, Physics, Atoms in molecules, Mètodes iteratius (Matemàtica), Chemical bonds, Chemical bond, Entropia, Electrostàtica

Abstract

The computational approach to the Hirshfeld [Theor. Chim. Acta 44, 129 (1977)] atom in a molecule is critically investigated, and several difficulties are highlighted. It is shown that these difficulties are mitigated by an alternative, iterative version, of the Hirshfeld partitioning procedure. The iterative scheme ensures that the Hirshfeld definition represents a mathematically proper information entropy, allows the Hirshfeld approach to be used for charged molecules, eliminates arbitrariness in the choice of the promolecule, and increases the magnitudes of the charges. The resulting Hirshfeld-I charges correlate well with electrostatic potential derived atomic charges

Published

2007

3. A systematic density functional theory study of the electronic structure of bulk and (001) surface of transition-metals carbides

Author

Francesc Illas, Ping Liu, Francesc Viñes, Carmen Sousa, and Jose A. Rodriguez

Subjects

Electronic structure, Materials science, Condensed matter physics, Inorganic chemistry, General Physics and Astronomy, Teoria del funcional de densitat, Estructura electrònica, Conductivitat elèctrica, Surface energy, Carburs, Electric conductivity, Transition metal, Chemical bond, Density of states, Work function, Density functional theory, Physical and Theoretical Chemistry, Carbides, Surface states, Density functionals

Abstract

A systematic study of the bulk and surface geometrical and electronic properties of a series of transition-metal carbides (TMC with TM = Ti, V, Zr, Nb, Mo, Hf, Ta, and W) by first-principles methods is presented. It is shown that in these materials the chemical bonding is strongly covalent, the cohesive energies being directly related to the bonding-antibonding gap although the shift of the center of the C(2s) band related peak in the density of states with respect to diamond indicates that some metal to carbon charge transfer does also take place. The (001) face of these metal carbides exhibits a noticeable surface rumpling which grows along the series. It is shown that neglecting surface relaxation results in very large errors on the surface energy and work function. The surface formation induces a significant shift of electronic energy levels with respect to the corresponding values in the bulk. The extent and nature of the shift can be understood from simple bonding-antibonding arguments and is enhanced by the structural rippling of this surface.

Published

2005

4. The aromatic fluctuation index (FLU): a new aromaticity index based on electron delocalization

Author

Miquel Solà, Eduard Matito, and Miquel Duran

Subjects

Aromatic compounds, Electronic structure, Homoaromaticity, Chemistry, Stereochemistry, General Physics and Astronomy, Aromaticity, Electrons, Estructura electrònica, Electron, Polycyclic compounds, Elementary charge, Ring (chemistry), Aromaticity (Chemistry), Compostos policíclics, Delocalized electron, Chemical physics, Compostos aromàtics, Physics::Atomic and Molecular Clusters, Molecule, Aromaticitat (Química), Physical and Theoretical Chemistry, Physics::Chemical Physics, Astrophysics::Galaxy Astrophysics

Abstract

In this work, the aromatic fluctuation index (FLU) that describes the fluctuation of electronic charge between adjacent atoms in a given ring is introduced as a new aromaticity measure. This new electronic criterion of aromaticity is based on the fact that aromaticity is related to the cyclic delocalized circulation of pi electrons. It is defined not only considering the amount of electron sharing between contiguous atoms, which should be substantial in aromatic molecules, but also taking into account the similarity of electron sharing between adjacent atoms. For a series of rings in 15 planar polycyclic aromatic hydrocarbons, we have found that, in general, FLU is strongly correlated with other widely used indicators of local aromaticity, such as the harmonic-oscillator model of aromaticity, the nucleus independent chemical shift, and the para-delocalization index (PDI). In contrast to PDI, the FLU index can be applied to study the aromaticity of rings with any number of members and it can be used to analyze both the local and global aromatic character of rings and molecules.

Published

2005