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15 results on '"do N. Varella, M. T."'

1. Transient anion spectra of the potential radiosensitizers 5-cyanateuracil and 5-thiocyanateuracil.

Author

Cornetta, L. M., Kossoski, F., and do N. Varella, M. T.

Subjects
URACIL, MOLECULAR spectra, BOUND states, SCATTERING (Physics), DISSOCIATION (Chemistry), RADIATION-sensitizing agents
Abstract

We report on the low energy anion spectra of 5-cyanateuracil (5-OCNU) and 5-thiocyanateouracil (5-SCNU), which have been the suggested potential radiosensitizers for use in cancer therapy [L. Chomicz et al., J. Phys. Chem. Lett. 4, 2853-2857 (2013)]. Employing bound state and scattering calculations, we obtained, for both molecules, a dipole bound state, a π* valence bound state, and four π* resonances, besides a σ* SCN resonance for 5-SCNU. The cyanate and thiocyanate substituents give rise to additional long-lived π* resonances, compared to 5-halouracil radiosensitizers. From the reaction thresholds and the expected vibronic couplings among the anion states, efficient production of SCN and CN anions and radical fragments should be observed in dissociative electron attachment measurements for 5-SCNU. The corresponding dissociation processes in 5-OCNU are expected to be less effective in view of the lack of a long-lived σ* OCN shape resonance and the little σ* admixture into the π* resonances located on the cyanate group. The present results thus indicate 5-SCNU as a more promising radiosensitizer at sub-excitation energies. [ABSTRACT FROM AUTHOR]

Published
2017
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2. How does methylation suppress the electron-induced decomposition of 1-methyl-nitroimidazoles?

Author

Kossoski, F. and do N. Varella, M. T.

Subjects
*METHYLATION, *CHEMICAL decomposition, *NITROIMIDAZOLES, *AUGER effect, *CHEMICAL reactions
Abstract

The efficient decomposition of nitroimidazoles (NIs) by low energy electrons is believed to underlie their radiosensitizing properties. Recent dissociative electron attachment (DEA) measurements showed that methylation at the N1 site unexpectedly suppresses the electron-induced reactions in 4(5)-NI. We report theoretical results that provide a clear interpretation of that astounding finding. Around 1.5 eV, DEA reactions into several fragments are initiated by a π* resonance, not considered in previous studies. The autoionization lifetime of this anion state, which limits the predissociation dynamics, is considerably shorter in the methylated species, thereby suppressing the DEA signals. On the other hand, the lifetime of the π* resonance located around 3 eV is less affected by methylation, which explains whyDEAis still observed at these energies. Our results demonstrate howeven a simple methylation can significantly modify the probabilities for DEA reactions, which may be significant for NI-based cancer therapy. [ABSTRACT FROM AUTHOR]

Published
2017
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5. Integral elastic, electronic-state, ionization, and total cross sections for electron scattering with furfural.

Author

Jones, D. B., da Costa, R. F., do N. Varella, M. T., Bettega, M. H. F., Lima, M. A. P., Blanco, F., García, G., and Brunger, M. J.

Subjects
ELECTRON impact ionization, ELECTRON energy states, NUCLEAR cross sections, ELECTRON scattering, FURFURAL, NUCLEAR excitation
Abstract

We report absolute experimental integral cross sections (ICSs) for electron impact excitation of bands of electronic-states in furfural, for incident electron energies in the range 20-250 eV. Wherever possible, those results are compared to corresponding excitation cross sections in the structurally similar species furan, as previously reported by da Costa et al. [Phys. Rev. A 85, 062706 (2012)] and Regeta and Allan [Phys. Rev. A 91, 012707 (2015)]. Generally, very good agreement is found. In addition, ICSs calculated with our independent atom model (IAM) with screening corrected additivity rule (SCAR) formalism, extended to account for interference (I) terms that arise due to the multi-centre nature of the scattering problem, are also reported. The sum of those ICSs gives the IAM-SCAR+I total cross section for electron-furfural scattering. Where possible, those calculated IAM-SCAR+I ICS results are compared against corresponding results from the present measurements with an acceptable level of accord being obtained. Similarly, but only for the band I and band II excited electronic states, we also present results from our Schwinger multichannel method with pseudopotentials calculations. Those results are found to be in good qualitative accord with the present experimental ICSs. Finally, with a view to assembling a complete cross section data base for furfural, some binary-encounter-Bethe-level total ionization cross sections for this collision system are presented. [ABSTRACT FROM AUTHOR]

Published
2016
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6. Differential cross sections for electron impact excitation of the electronic bands of phenol.

Author

Neves, R. F. C., Jones, D. B., Lopes, M. C. A., Nixon, K. L., da Silva, G. B., Duque, H. V., de Oliveira, E. M., da Costa, R. F., do N. Varella, M. T., Bettega, M. H. F., Lima, M. A. P., Ratnavelu, K., García, G., and Brunger, M. J.

Subjects
NUCLEAR cross sections, ELECTRONIC excitation, PHENOL, ELECTRONIC band structure, ELECTRON scattering
Abstract

We report results from a joint theoretical and experimental investigation into electron scattering from the important organic species phenol (C6H5OH). Specifically, differential cross sections (DCSs) have been measured and calculated for the electron-impact excitation of the electronic states of C6H5OH. The measurements were carried out at energies in the range 15-40 eV, and for scattered-electron angles between 10° and 90°. The energy resolution of those experiments was typically ~80 meV. Corresponding Schwinger multichannel method with pseudo-potentials calculations, with and without Born-closure, were also performed for a sub-set of the excited electronic-states that were accessed in the measurements. Those calculations were conducted at the static exchange plus polarisation (SEP)-level using a minimum orbital basis for single configuration interaction (MOBSCI) approach. Agreement between the measured and calculated DCSs was typically fair, although to obtain quantitative accord, the theory would need to incorporate even more channels into the MOBSCI. [ABSTRACT FROM AUTHOR]

Published
2015
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7. An experimental and theoretical investigation into the excited electronic states of phenol.

Author

Jones, D. B., da Silva, G. B., Neves, R. F. C., Duque, H. V., Chiari, L., de Oliveira, E. M., Lopes, M. C. A., da Costa, R. F., do N. Varella, M. T., Bettega, M. H. F., Lima, M. A. P., and Brunger, M. J.

Subjects
PHENOLS, EXCITED state chemistry, ELECTRON energy states, OSCILLATOR strengths, BENZENE
Abstract

We present experimental electron-energy loss spectra (EELS) that were measured at impact energies of 20 and 30 eV and at angles of 90° and 10°, respectively, with energy resolution ~70 meV. EELS for 250 eV incident electron energy over a range of angles between 3° and 50° have also been measured at a moderate energy resolution (~0.9 eV). The latter spectra were used to derive differential cross sections and generalised oscillator strengths (GOS) for the dipole-allowed electronic transitions, through normalization to data for elastic electron scattering from benzene. Theoretical calculations were performed using time-dependent density functional theory and single-excitation configuration interaction methods. These calculations were used to assign the experimentally measured spectra. Calculated optical oscillator strengths were also compared to those derived from the GOS data. This provides the first investigation of all singlet and triplet excited electronic states of phenol up to the first ionization potential. [ABSTRACT FROM AUTHOR]

Published
2014
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8. Shape resonance spectra of uracil, 5-fluorouracil, and 5-chlorouracil.

Author

Kossoski, F., Bettega, M. H. F., and do N. Varella, M. T.

Subjects
PHYSICS research, RESONANCE effect, SCATTERING (Physics), PARTICLES (Nuclear physics), SPECTRUM analysis, ELASTIC scattering, URACIL, FLUOROURACIL
Abstract

We report on the shape resonance spectra of uracil, 5-fluorouracil, and 5-chlorouracil, as obtained from fixed-nuclei elastic scattering calculations performed with the Schwinger multichannel method with pseudopotentials. Our results are in good agreement with the available electron transmission spectroscopy data, and support the existence of three p* resonances in uracil and 5-fluorouracil. As expected, the anion states are more stable in the substituted molecules than in uracil. Since the stabilization is stronger in 5-chlorouracil, the lowest p* resonance in this system becomes a bound anion state. The present results also support the existence of a low-lying s*CCl shape resonance in 5-chlorouracil. Exploratory calculations performed at selected C-Cl bond lengths suggest that the s*CCl resonance could couple to the two lowest p* states, giving rise to a very rich dissociation dynamics. These facts would be compatible with the complex branching of the dissociative electron attachment cross sections, even though we cannot discuss any details of the vibration dynamics based only on the present fixed-nuclei results. [ABSTRACT FROM AUTHOR]

Published
2014
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11. Positron scattering from methane

Author

Zecca, A., primary, Chiari, L., additional, Trainotti, E., additional, Sarkar, A., additional, d’A. Sanchez, S., additional, Bettega, M. H. F., additional, do N. Varella, M. T., additional, Lima, M. A. P., additional, and Brunger, M. J., additional

Published
2012
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13. Interaction of low-energy electrons with dimethyl sulfide and dimethyl disulfide.

Author

dos Santos, J. S., Kossoski, F., and do N. Varella, M. T.

Subjects
*DIMETHYL sulfide, *ELECTRON scattering, *QUANTUM chemistry, *GAS phase reactions, *RYDBERG states
Abstract

We report elastic integral cross sections for low-energy electron scattering by gas-phase dimethyl sulfide and dimethyl disulfide, obtained with the Schwinger multichannel method with pseudopotentials. Our symmetryresolved cross sections for dimethyl sulfide reveal that the single broad structure at 3.25 eV observed in the electron transmission spectrum (assigned as a σ*cs shape resonance) would actually arise from two superimposed anion states in the B2 and A1 symmetry components of the C2v point group. We also obtained two low-lying shape resonances for dimethyl disulfide, in good agreement with the available electron transmission data. In view of the recently reported measurements on dissociative electron attachment to dimethyl disulfide [C. Matias, A. Mauracher, P. Scheier, P. Limäo-Vieira, and S. Denifl, Chem. Phys. Lett. 605-606, 71 (2014)], we also calculated cross sections for stretched S-S bond lengths, which indicate a fast stabilization consistent with the experimental data. [ABSTRACT FROM AUTHOR]

Published
2014
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14. Calculation of positron binding energies of amino acids with the any-particle molecular-orbital approach.

Author

Charry, J., Romero, J., do N. Varella, M. T., and Reyes, A.

Subjects
*BINDING energy, *AMINO acids, *MOLECULAR orbitals, *HYDROGEN bonding, *HARTREE-Fock approximation, *BOUND states
Abstract

We report positron binding energies (PBEs) for the 20 standard amino acids in the global minimum, hydrogen-bonded, and zwitterionic forms. The calculations are performed at the any-particle molecular-orbital (APMO) Hartree-Fock (HF), Koopmans' theorem (KT), second-order Möller-Plesset (MP2), and second-order propagator (P2) levels of theory. Our study reveals that the APMO KT and APMO P2 methods generally provide higher PBEs than the APMO HF and APMO MP2 methods, respectively, with only a fraction of the computational costs of the latter. We also discuss the impact of the choice of the positronic center on the PBEs and propose a simple and inexpensive procedure, based on the condensed Fukui functions of the parent molecules, to select the most suitable expansion center. The results reported so far indicate that APMO KT and APMO P2 methods are convenient options for a qualitative or semiquantitative analysis of positron binding in medium to large polyatomic systems. [ABSTRACT FROM AUTHOR]

Published
2014
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15. Shape Resonances and Elastic Cross Sections in Electron Scattering by CF 3 Br and CF 3 I.

Author

Kiataki MB, do N Varella MT, Bettega MHF, and Kossoski F

Abstract

Trifluoroiodomethane (CF 3 I) is one of the most appealing candidates for applications in plasma-based technologies in view of its many interesting advantages when compared to more standard gases such as trifluorobromomethane (CF 3 Br). Low-energy electrons are prone to decomposing these molecules into reactive species, and knowledge on the collision cross sections is fundamental for modeling transport and reactivity in plasma environments. Despite many studies on electron collisions with the abovementioned molecules, there are conflicting results on the assignment of shape resonances and on the magnitudes of total cross sections. Here, we try to clarify these aspects by performing ab initio electron scattering calculations. We found integral cross sections in fair agreement with the most recent measurements, in contrast to previous reports. For each molecule, we found a σ CX * resonance (antibonding between the carbon and the heavy halogen) at 1 eV in CF 3 Br and at ∼0 eV in CF 3 I. Furthermore, there are three shape resonances of σ CF * character; two are degenerate and account for a broad feature around 6 eV and the other one appears around 9.5 eV. We also discuss the possible role of the degenerate resonance in dissociative electron attachment reactions, as well as the impact of the heavy halogen on the cross sections and on the shape resonances.

Published
2020
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