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Gas-Phase Structure and Acidity of Formohydroxamic Acid and Formamide: A Comparative ab Initio Study (1995)

Ventura, Oscar N. ; Rama, Jose B. ; Turi, Laszlo ; [et al.]

s.l. : American Chemical Society

The @journal of physical chemistry 〈Washington, DC〉 99 (1995), S. 131-136

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Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology , Physics

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/j100001a023

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High-level ab initio prediction of the structure and infrared spectra of formaldehyde–water radical-cation complexes (1995)

Coitiño, Elena L. ; Pereira, Alberto ; Ventura, Oscar N.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 102 (1995), S. 2833-2840

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: In a previous work we have identified two possible structures for the radical cation obtained by ionization of hydrogen-bonded formaldehyde–water complexes [Coitiño et al., J. Am. Chem. Soc. 115, 9121 (1993)], a hydrogen-bonded and an addition-like complexes. We observed that the results were highly dependent on the method of calculation employed. Inclusion of correlation was crucial for obtaining the correct structures of some of the complexes. In this work we used high-level ab initio calculations in order to predict the equilibrium structure of these two complexes, the possibility of its existence in gas phase, and the infrared spectrum to be expected in each case.A series of progressively more sophisticated basis sets was used to assess the effect of the quality of the calculations on the expected results. Also, full geometry optimization with each basis set was performed at the second-order Møller–Plesset level, and correlation energy was calculated at the fourth-order Møller–Plesset level to assess the contribution of this factor to the global result. Confirming our previous results, we found that correlation affects the hydrogen-bonded radical-cation complex more than the addition one, due to the different bonding patterns in each of them. Both complexes are stable—toward decomposition to the fragments or to CO+H+H3O+—by several kcal/mol at all levels of theory. The hydrogen-bonded complex is more stable than the additional one by a respectable amount (13 kcal/mol at the highest level used here), lending support to our previous analysis of the reactions of the former as the main channels for evolution of the formaldehyde–water radical cation. The H-bonded complex [H3O+...HCO⋅] presents two characteristics, very intense absorptions which should allow identification of this radical cation if present in the experimental setup. These transitions are also present in the HCO⋅ radical but their intensity is enhanced by an order of magnitude due to the coupling with the proton in H3O+. We conclude that the combination of stability and characteristic infrared transitions should make this radical-cation complex a relatively easy target for experimental determination. © 1995 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.468661

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The Water Dimer: Post-Hartree-Fock and Density Functional Calculations on the Potential Energy Surface (1997)

Ventura, Oscar N. ; Kieninger, Martina ; Suhai, Sandor ; [et al.]

Springer

Molecular engineering 7 (1997), S. 317-348

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ISSN: 1572-8951

Keywords: Water dimer ; PES ; DFT ; B3PW91 ; ab initio

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Conventional ab initio and density functional methods with extended basis sets were employed in the study of a path on the water-dimer potential energy surface. The results show that density functional methods do depend strongly on the type of exchange-correlation potential employed, as well as on the quality of the basis sets – similarly to conventional ab initio methods – and on the density of the grid. Gradient-corrected methods behave, as expected, better than uncorrected ones, the Becke–Lee–Yang–Parr (BLYP) potential being the one that gives the best results. However, too large chemical- and hydrogen-bond lengths and absolute energies, as well as too small relative total and correlation energies demonstrate that even BLYP calculations with a relative large basis set are not good as MP2 calculations of the same size. Adiabatically connected functionals (ACM), represented in this work by B3PW91, provide an improvement on the whole surface.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008243505290

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Density functional investigations of carboxyl free radicals: Formyloxyl, acetyloxyl, and benzoyloxyl radicals (1998)

Kieninger, Martina ; Ventura, Oscar N. ; Suhai, Sandor

New York, NY : Wiley-Blackwell

International Journal of Quantum Chemistry 70 (1998), S. 253-267

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ISSN: 0020-7608

Keywords: DFT ; carbonyloxyl radicals ; CASPT2 ; chemical reactions ; isomerizations ; Chemistry ; Theoretical, Physical and Computational Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: The structure of the lowest electronic states of HCOO· in C2v and Cs symmetries were optimized employing density functional theory (DFT) methods with extended basis sets including up to f- (on C and O) and d- (on H) polarization functions. Generalized gradient functionals (BLYP) and adiabatically connected functionals (B3LYP and B3PW91) were employed for studying HCOO·, as well as the isomer HOCO· (trans), the dissociation limit H·+CO2, and the transition state for the decomposition. At the best DFT levels employed, the ground state of HCOO· is 2A1 (in C2v) with equal C—O bond lengths, while the low-lying 2B2 state is only about 4 kJ/mol above (without inclusion of zero-point energies). The broken-symmetry 2A′ state (with unequal C—O bond lengths, i.e., Cs symmetry) is predicted to be about 13 kJ/mol above the 2A1 state and to be a transition state for the isomerization HCOO· (2A1)→HOCO· (2A′), with the trans-HOCO· isomer about 55 kJ/mol more stable. These facts agree closely with the most recent CASPT2/ANO calculations on this system. Therefore, it is concluded that some DFT models can be used safely for the study of larger radicals of the same type (despite several drawbacks discussed at length in this study). B3PW91, using several basis sets, is subsequently applied to the study of the possible reaction mechanisms of acetyloxyl radical, which exhibits a much more complicated path than formyloxyl, due to the presence of the methyl group. The optimum structures of isomers with coplanar or perpendicular CH and CO bonds were obtained for CH3COO· and two saddle points identified on the path of decomposition into CH3· and CO2. On the other side, saddle points for isomerization into CH3OCO· and CH2COOH· were also located, and the decomposition of the former to CH3O·+CO investigated. Finally, the structure of the benzoyloxyl radical (C6H5COO·) and its possible decomposition products were investigated along the same lines. © 1998 John Wiley & Sons, Inc. Int J Quant Chem 70: 253-267, 1998

Additional Material: 3 Ill.

Type of Medium: Electronic Resource

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Density of levels in vibrational spectra of molecules (1997)

Karwowski, Jacek ; Ventura, Oscar N. ; Bancewicz, Małgorzata

New York, NY : Wiley-Blackwell

International Journal of Quantum Chemistry 63 (1997), S. 835-842

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ISSN: 0020-7608

Keywords: Chemistry ; Theoretical, Physical and Computational Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: Density distribution of the discrete spectrum of a Hamiltonian which represents a system of N-coupled oscillators and, hence may describe molecular vibrations in the local mode approximation, is analyzed. The spectral density moments are expressed as linear combinations of products of coefficients which depend on the molecular topology (analogs of the propagation coefficients in the statistical theory of nuclear and atomic spectra) and of one-particle moments describing individual bonds and interactions between them. The dependence of the first three moments of the energy-level density on the structural parameters of the molecule is discussed. Detailed expressions for several special cases are derived. © 1997 John Wiley & Sons, Inc. Int J Quant Chem 63: 835-842, 1997

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Density functional study of isomerization of fluoro- and chloroformaldehyde radical cations (1996)

Ventura, Oscar N. ; Kieninger, Martina ; Coitiño, Elena L.

New York, NY [u.a.] : Wiley-Blackwell

Journal of Computational Chemistry 17 (1996), S. 1309-1317

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ISSN: 0192-8651

Keywords: Chemistry ; Theoretical, Physical and Computational Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Computer Science

Notes: Ab initio and density functional (DFT) calculations were performed on radical cations with the formula HXCO+· (X = H, F, and CI) and their isomers XCOH+·. Hartree-Fock, Møller-Plesset at second order (MP2), and quadratic configuration interaction including singles and doubles (QCISD) methods were employed for geometry optimizations at the ab initio level. Becke's 1988 and three-parameter exchange potentials, together with Vosko-Wilk-Nusair (VWN) and Lee-Yang-Paar (LYP) correlation potentials (BVWN, BLYP, and B3LYP) were used for the DFT calculations. HF and MPn isomerization energies are severely in error, mostly due to a bad description of the XHCO+· cation radicals at the Hartree-Fock level, leading to oscillatory behavior of the perturbation series. QCISD methods, at least, are needed to obtain accurate results at the conventional ab initio level, even using large extended basis sets. B3LYP results are most similar to QCISD results for the isomerization energies of the three cation radicals. Parent neutral species are also described to a high degree of accuracy. B3LYP methods are faster than QCISD (and as exact as them) for all the cases studied here. MP2 methods, although giving incorrect results, are faster than B3LYP up to about 80 basis functions. For larger problems, B3LYP methods are faster. The best theoretical results obtained indicate that fluoro- and chloroformaldehyde cation radicals are less stable than their hydroxyfluoro- and hydroxychloromethylene isomers, the reverse situation than for the formaldehyde cation radical. The best values found in this article for the isomerization energy of XHCO+· are -26 ± 2 kJ/mol (X = H), +37 ± 2 kJ/mol (X = F), and +28 ± 2 kJ/mol (X = CI). Ionization energies of 10.9, 12.3, and 11.4 eV are predicted for the XHCO species (X = H, F, CI). © 1996 by John Wiley & Sons, Inc.

Additional Material: 2 Ill.

Type of Medium: Electronic Resource

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