Your search keyword '"D. Ninno"' showing total 5 results

1. Role of the band structure in determining the third-order susceptibility of semiconductor superlattices

Author

BM Adderley, MJ Shaw, D Ninno, Milan Jaros, M. J., Shaw, Ninno, Domenico, B. M., Adderley, and M., Jaros

Subjects

Pseudopotential, chemistry.chemical_classification, Materials science, Condensed matter physics, chemistry, Superlattice, Monolayer, Semiconductor superlattices, Absolute value, Third order susceptibility, Electronic band structure, Inorganic compound

Abstract

We show that both the absolute value and the sharp features in the spectral form of the frequency-dependent third-order susceptibility of semiconductor superlattices (e.g., [8 monolayers (InAs) 0.7 (GaSb) 0.3 ]/(4 monolayers AlSb)) strongly depend on the shape of the minibands. The significant minibands span a range of energies up to ≃E gap from the fundamental band edges

Published

1992

2. Role of surface oxygen vacancies in photoluminescence of tin dioxide nanobelts

Author

Vincenzo Barone, P. Maddalena, Stefano Lettieri, Domenico Ninno, M. Causí, Antonio Setaro, F. Trani, F., Trani, M., Causà, S., Lettieri, A., Setaro, D., Ninno, Barone, Vincenzo, P., Maddalena, Causa', Mauro, Setaro, Antonio, Ninno, Domenico, V., Barone, and Maddalena, Pasqualino

Subjects

defect, Materials science, Photoluminescence, Tin dioxide, band structure, General Engineering, chemistry.chemical_element, Nanoparticle, Resonance, Nanotechnology, electronic structure, Tin oxide, Oxygen, Molecular physics, chemistry.chemical_compound, chemistry, Density functional theory, Luminescence

Abstract

The role of surface oxygen vacancies in the optical properties of tin dioxide nanobelts is investigated in this paper. Using a first-principles approach, based on the density functional theory combined to a very accurate exchange correlation functional, we characterize SnO(2) (101), that is the nanobelt largest surface. We show that the presence of surface oxygen vacancies leads to the appearance of (i) occupied states located at about 1 eV above the valence band and (ii) unoccupied states lying in resonance with the conduction band. Photoluminescence characterization performed on samples of SnO(2) nanobelts at low temperature shows that the basic spectral features of luminescence are in excellent agreement with theoretical predictions.

Published

2009

3. Ab initio study of electron affinity variation induced by organic molecule adsorption on the silicon (001) surface

Author

Giuseppe Iadonisi, Giovanni Cantele, Ivo Borriello, Vincenzo Barone, Domenico Ninno, Maurizio Cossi, Borriello, Ivo, Cantele, Giovanni, Ninno, Domenico, Iadonisi, Giuseppe, Cossi, Maurizio, Barone, Vincenzo, I., Borriello, G., Cantele, D., Ninno, G., Iadonisi, and M., Cossi

Subjects

Materials science, Ab initio, Langmuir adsorption model, Charge density, Condensed Matter Physics, BENZOIC-ACID DERIVATIVES, Electronic, Optical and Magnetic Materials, symbols.namesake, Dipole, SEMICONDUCTOR SURFACE, Adsorption, Molecular geometry, Chemical physics, CHEMISTRY, Electron affinity, symbols, CLEAN SILICON, Work function, Physics::Chemical Physics, WORK FUNCTION

Abstract

The effect of organic adsorbates on the silicon (001) surface is investigated using first-principles calculations. Ethylene and a class of cyclopentene derivatives, containing different functional groups, are considered, all anchoring to the surface through the same $[2+2]$ cycloaddition mechanism. Because they all show similar bonding properties, any variation in the surface properties must be related to the functional group. The structural relaxation induced by the adsorption is discussed, elucidating the effect of both the adsorbate species and coverage. It turns out that different distortions occur in the molecular geometry, depending on both the species and the surface coverage, while molecule-to-surface bonding does show very similar features for all the considered molecules. We show that the presence of the adsorbate can modify the surface charge density, thus giving rise to an induced dipolar layer that modifies the electrostatic potential outside the surface. Such a dipole layer can, in turn, be related to surface electron affinity and work function changes. A careful analysis of the dipole moment and of the electrostatic potential changes is carried out discussing the correlations with the properties of the isolated molecules. All the results indicate how the surface properties can be tuned through a suitable choice of the adsorbate.

Published

2007

4. A theoretical study of ethylene, cyclopentene and 1-amino-3-cyclopentene adsorption on the silicon <100> surface

Author

Vincenzo Barone, Maurizio Cossi, F. Trani, Giovanni Cantele, Domenico Ninno, Cantele, Giovanni, Trani, Fabio, Ninno, Domenico, Cossi, Maurizio, Barone, Vincenzo, G., Cantele, F., Trani, D., Ninno, and M., Cossi

Subjects

Silicon, Ab initio, chemistry.chemical_element, Thermodynamics, Activation energy, Condensed Matter Physics, chemistry.chemical_compound, Adsorption, chemistry, Computational chemistry, Ab initio quantum chemistry methods, Cluster (physics), Cyclopentene, General Materials Science, Physics::Chemical Physics, Electronic band structure

Abstract

In this paper we report on a comparative ab initio study of the adsorption of ethylene, cyclopentene and 1-amino-3-cyclopentene on the silicon (100) surface. Accurate calculations of the reaction path have been carried out using a cluster model for the surface dimer (Si9H12) and Gaussian-type basis functions. The dependence of the computed reaction path on the theoretical method is investigated-, activation energies turn out to be quite independent of the method, and general trends can be found for the three systems studied: the larger difference is found between linear and cyclic alkenes. Periodic calculations with plane waves are also performed on periodic slabs, finding an adsorption energy in fair agreement with the cluster model. The Surface band structure is carefully studied: a strong dispersion is found along some directions for highly covered surfaces, in good agreement with the experimental data available for ethylene. Also in this case, differences arise when passing from linear to cyclic alkenes, while the second substituent on the cycle has very limited effects.

Published

2006

5. A first-principle study of the adsorption of 1-amino-3-cyclopentene on the (100) silicon surface

Author

Gaetano Festa, Giuseppe Iadonisi, Maurizio Cossi, Vincenzo Barone, Domenico Ninno, Giovanni Cantele, G., Festa, M., Cossi, Barone, Vincenzo, G., Cantele, D., Ninno, G., Iadonisi, Festa, Gaetano, Cossi, Maurizio, Cantele, Giovanni, Ninno, Domenico, and Iadonisi, Giuseppe

Subjects

Surface (mathematics), Silicon, General Physics and Astronomy, chemistry.chemical_element, Molecular physics, Delocalized electron, Adsorption, chemistry, Atomic orbital, Quantum mechanics, Cluster (physics), Density functional theory, Soft matter, Physical and Theoretical Chemistry

Abstract

The adsorption of 1-amino-3-cyclopentene on the (100) silicon surface has been studied by methods rooted in the density-functional theory using both delocalized (plane waves, PWs) and localized (Gaussian-type orbitals, GTOs) basis functions. The results obtained by modeling the surface by silicon clusters of different sizes are quite similar, thus confirming that the reaction is quite localized. Furthermore, PW and GTO computations give comparable results, provided that the same density functional and carefully chosen computational parameters (contraction of GTO, pseudopotentials, etc.) are used. Slab computations performed in the PW framework show that the cluster results are retrieved when low-coverage adsorption on the surface is considered. On these grounds, we are quite confident that reaction parameters obtained by the more reliable hybrid density functional (PBE0) are essentially converged, our best estimates of reaction and activation free energies are thus -40 and 6 kcal/mol, respectively. (c) 2005 American Institute of Physics.

Published

2005