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1. Vibrational properties of graphdiynes as 2D carbon materials beyond graphene

Author

Serafini, P., Milani, A., Tommasini, M., Castiglioni, C., Proserpio, D. M., Bottani, C. E., and Casari, C. S.

Subjects
Condensed Matter - Materials Science
Abstract

Two-dimensional (2D) hybrid sp-sp2 carbon systems are an appealing subject for science and technology. For these materials, topology and structure significantly affect electronic and vibrational properties. We investigate here by periodic density-functional theory (DFT) calculations we here investigate the Raman and IR spectra of 2D carbon crystals belonging to the family of graphdiynes (GDYs) and having different structures and topologies. By joining DFT calculations with symmetry analysis, we assign the IR and Raman modes in the spectra of all the investigated systems. On this basis, we discuss how the modulation of the Raman and IR active bands depends on the different interactions between sp and sp2 domains. The symmetry-based classification allows identifying the marker bands sensitive to the different peculiar topologies. These results show the effectiveness of vibrational spectroscopy for the characterization of new nanostructures, deepening the knowledge of the subtle interactions that take place in these 2D materials.

Published
2022
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2. Two-dimensional TiOx nanostructures on Au(111): a Scanning Tunneling Microscopy and Spectroscopy investigation

Author

Tumino, F., Carrozzo, P., Mascaretti, L., Casari, C. S., Passoni, M., Tosoni, S., Bottani, C. E., and Bassi, A. Li

Subjects
Condensed Matter - Materials Science
Abstract

We investigated the growth of titanium oxide two-dimensional (2D) nanostructures on Au(111), produced by Ti evaporation and post-deposition oxidation. Scanning tunneling microscopy and spectroscopy (STM and STS) and low-energy electron diffraction (LEED) measurements characterized the morphological, structural and electronic properties of the observed structures. Five distinct TiO\sub{x} phases were identified: the \emph{honeycomb} and \emph{pinwheel} phases appear as monolayer films wetting the gold surface, while nanocrystallites of the \emph{triangular}, \emph{row} and \emph{needle} phases grow mainly over the honeycomb or pinwheel layers. Density Functional Theory (DFT) investigation of the honeycomb structure supports a $(2\times 2)$ structural model based on a Ti-O bilayer having $\text{Ti}_2\text{O}_3$ stoichiometry. The pinwheel phase was observed to evolve, for increasing coverage, from single triangular crystallites to a well-ordered film forming a $(4\sqrt{7}\times 4\sqrt{7})R19.1^\circ$ superstructure, which can be interpreted within a moir\~A\c{opyright}-like model. Structural characteristics of the other three phases were disclosed from the analysis of high-resolution STM measurements. STS measurements revealed a partial metallization of honeycomb and pinwheel and a semiconducting character of row and triangular phases., Comment: 13 pages, 10 figures

Published
2015
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3. Direct observation of the basic mechanisms of Pd island nucleation on Au(111)

Author

Casari, C. S., Foglio, S., Siviero, F., Bassi, A. Li, Passoni, M., and Bottani, C. E.

Subjects
Condensed Matter - Materials Science
Abstract

The formation mechanisms of evaporated Pd islands on the reconstructed Au(111) $22 /times /sqrt{3}$ herringbone surface have been here studied by Scanning Tunneling Microscopy (STM) at room temperature. Atomically resolved STM images at the very early stages of growth provide a direct observation of the mechanisms involved in preferential Pd islands nucleation at the elbows of the herringbone structure. At low Pd coverage the Au(111) herringbone structure remains substantially unperturbed and isolated Pd atoms settled in hollow sites between Au atoms are found nearby the elbows and the distortions of the reconstructed surface. In the same regions, at extremely low coverage (0.003 ML), substituted Pd atoms in lattice sites of the Au(111) surface are also observed, revealing the occurrence of a place exchange mechanism. Substitution seems to play a fundamental role in the nucleation process, forming aggregation centers for incoming atoms and thus leading to the ordered growth of Pd islands on Au(111). Atomically resolved STM images of Pd islands reveal a close-packed arrangement with lattice parameter close to the interatomic distance between gold atoms in the fcc regions of the Au(111) surface. Distortion of the herringbone structure for Pd coverages higher than 0.25 ML indicates strong interaction between the growing islands and the topmost Au(111) layer., Comment: 25 pages, 10 figures

Published
2008
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4. Hierarchically organized nanostructured TiO2 for photocatalysis applications

Author

Di Fonzo, F., Casari, C. S., Russo, V., Brunella, M. F., Bassi, A. Li, and Bottani, C. E.

Subjects
Condensed Matter - Materials Science
Abstract

A template-free process for the synthesis of nanocrystalline TiO2 hierarchical microstructures by reactive Pulsed Laser Deposition (PLD) is here presented. By a proper choice of deposition parameters a fine control over the morphology of TiO2 microstructures is demonstrated, going from classical compact/columnar films to a dense forest of distinct hierarchical assemblies of ultrafine nanoparticles (<10 nm), up to a more disordered, aerogel-type structure. Correspondingly, film density varies with respect to bulk TiO2 anatase, with a degree of porosity going from 48% to over 90%. These structures are stable with respect to heat treatment at 400 centigrade degrees, which results in crystalline ordering but not in morphological changes down to the nanoscale. Both as deposited and annealed films exhibit very promising photocatalytic properties, even superior to standard Degussa P25 powder, as demonstrated by the degradation of stearic acid as a model molecule. The observed kinetics are correlated to the peculiar morphology of the PLD grown material. We show that the 3D multi-scale hierarchical morphology enhances reaction kinetics and creates an ideal environment for mass transport and photon absorption, maximizing the surface area-to-volume ratio while at the same time providing readily accessible porosity through the large inter-tree spaces that act as distributing channels. The reported strategy provides a versatile technique to fabricate high aspect ratio 3D titania microstuctures through a hierarchical assembly of ultrafine nanoparticles. Beyond photocatalytic and catalytic applications, this kind of material could be of interest for those applications where high surface-to-volume and efficient mass transport are required at the same time., Comment: 10 pages, 7 figures, Nanotechnology (accepted)

Published
2008
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5. Investigation of sp carbon chain interaction with silver nanoparticles by Surface Enhanced Raman Scattering

Author

Lucotti, A., Casari, C. S., Tommasini, M., Bassi, A. Li, Fazzi, D., Russo, V., Del Zoppo, M., Castiglioni, C., Cataldo, F., Bottani, C. E., and Zerbi, G.

Subjects
Condensed Matter - Materials Science
Abstract

Surface Enhanced Raman Spectroscopy (SERS) is exploited here to investigate the interaction of isolated sp carbon chains (polyynes) in a methanol solution with silver nanoparticles. Hydrogen-terminated polyynes show a strong interaction with silver colloids used as the SERS active medium revealing a chemical SERS effect. SERS spectra after mixing polyynes with silver colloids show a noticeable time evolution. Experimental results, supported by density functional theory (DFT) calculations of the Raman modes, allow us to investigate the behavior and stability of polyynes of different lengths and the overall sp conversion towards sp2 phase., Comment: 19 pages, 7 figures, 1 tables

Published
2008
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6. Low-frequency modes in the Raman spectrum of sp-sp2 nanostructured carbon

Author

Casari, C. S., Bassi, A. Li, Baserga, A., Ravagnan, L., Piseri, P., Lenardi, C., Tommasini, M., Milani, A., Fazzi, D., Bottani, C. E., and Milani, P.

Subjects
Condensed Matter - Materials Science
Abstract

A novel form of amorphous carbon with sp-sp2 hybridization has been recently produced by supersonic cluster beam deposition showing the presence in the film of both polyynic and cumulenic species [L. Ravagnan et al. Phys. Rev. Lett. 98, 216103 (2007)]. Here we present a in situ Raman characterization of the low frequency vibrational region (400-800 cm-1) of sp-sp2 films at different temperatures. We report the presence of two peaks at 450 cm-1 and 720 cm-1. The lower frequency peak shows an evolution with the variation of the sp content and it can be attributed, with the support of density functional theory (DFT) simulations, to bending modes of sp linear structures. The peak at 720 cm-1 does not vary with the sp content and it can be attributed to a feature in the vibrational density of states activated by the disorder of the sp2 phase., Comment: 15 pages, 5 figures, 1 table

Published
2008
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7. Bulk Cr tips for scanning tunneling microscopy and spin-polarized scanning tunneling microscopy

Author

Bassi, A. Li, Casari, C. S., Cattaneo, D., Donati, F., Foglio, S., Passoni, M., Bottani, C. E., Biagioni, P., Brambilla, A., Finazzi, M., Ciccacci, F., and Duo', L.

Subjects
Condensed Matter - Materials Science
Abstract

A simple, reliable method for preparation of bulk Cr tips for Scanning Tunneling Microscopy (STM) is proposed and its potentialities in performing high-quality and high-resolution STM and Spin Polarized-STM (SP-STM) are investigated. Cr tips show atomic resolution on ordered surfaces. Contrary to what happens with conventional W tips, rest atoms of the Si(111)-7x7 reconstruction can be routinely observed, probably due to a different electronic structure of the tip apex. SP-STM measurements of the Cr(001) surface showing magnetic contrast are reported. Our results reveal that the peculiar properties of these tips can be suited in a number of STM experimental situations.

Published
2007
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8. Influence of cumulenic chains on the vibrational and electronic properties of sp/sp2 amorphous carbon

Author

Ravagnan, L., Piseri, P., Bruzzi, M., Miglio, S., Bongiorno, G., Baserga, A., Casari, C. S., Bassi, A. Li, Lenardi, C., Yamaguchi, Y., Wakabayashi, T., Bottani, C. E., and Milani, P.

Subjects
Condensed Matter - Materials Science
Abstract

We report the production and characterization of a form of amorphous carbon films with sp/sp2 hybridization (atomic fraction of sp hybridized species > 20%) where the predominant sp bonding appears to be (=C=C=)n cumulene. Vibrational and electronic properties have been studied by in situ Raman spectroscopy and electrical conductivity measurements. Cumulenic chains are substantially stable for temperatures lower than 250 K and they influence the electrical transport properties of the sp/sp2 carbon through a self-doping mechanism by pinning the Fermi level closer to one of the mobility gap edges. Upon heating above 250 K the cumulenic species decay to form graphitic nanodomains embedded in the sp2 amorphous matrix thus reducing the activation energy of the material. This is the first example of a pure carbon system where the sp hybridization influences bulk properties., Comment: 14 pages, 3 figures

Published
2007
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9. Different W cluster deposition regimes in pulsed laser ablation observed by in situ Scanning Tunneling Microscopy

Author

Cattaneo, D., Foglio, S., Casari, C. S., Bassi, A. Li, Passoni, M., and Bottani, C. E.

Subjects
Condensed Matter - Materials Science
Abstract

We report on how different cluster deposition regimes can be obtained and observed by in situ Scanning Tunneling Microscopy (STM) by exploiting deposition parameters in a pulsed laser deposition (PLD) process. Tungsten clusters were produced by nanosecond Pulsed Laser Ablation in Ar atmosphere at different pressures and deposited on Au(111) and HOPG surfaces. Deposition regimes including cluster deposition-diffusion-aggregation (DDA), cluster melting and coalescence and cluster implantation were observed, depending on background gas pressure and target-to-substrate distance which influence the kinetic energy of the ablated species. These parameters can thus be easily employed for surface modification by cluster bombardment, deposition of supported clusters and growth of films with different morphologies. The variation in cluster mobility on different substrates and its influence on aggregation and growth mechanisms has also been investigated., Comment: 12 pages (3 figures); Surface Science (accepted)

Published
2007
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10. Stabilization of linear carbon structures in a solid Ag nanoparticle assembly

Author

Casari, C. S., Russo, V., Bassi, A. Li, Bottani, C. E., Cataldo, F., Lucotti, A., Tommasini, M., Del Zoppo, M., Castiglioni, C., and Zerbi, G.

Subjects
Condensed Matter - Materials Science
Abstract

Linear sp carbon nanostructures are gathering interest for the physical properties of one-dimensional (1D) systems. At present, the main obstacle to the synthesis and study of these systems is their instability. Here we present a simple method to obtain a solid system where linear sp chains (i.e. polyynes) in a silver nanoparticle assembly display a long term stability at ambient conditions. The presence and the behavior of linear carbon is investigated by Surface Enhanced Raman Scattering (SERS) exploiting the plasmon resonance of the silver nanoparticles assembly. This model system opens the possibility to investigate an intriguing form of carbon nanostructures.

Published
2006
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11. Leaving the Fullerene Road: Presence and Stability of sp Chains in sp2 Carbon Clusters and Cluster-Assembled Solids

Author

Bogana, M., Ravagnan, L., Casari, C. S., Zivelonghi, A., Baserga, A., Bassi, A. Li, Bottani, C. E., Vinati, S., Salis, E., Piseri, P., Barborini, E., Colombo, L., and Milani, P.

Subjects
Condensed Matter - Materials Science
Abstract

We report the experimental and theoretical investigation of the growth and of the structure of large carbon clusters produced in a supersonic expansion by a pulsed microplasma source. The absence of a significant thermal annealing during the cluster growth causes the formation of disordered structures where sp2 and sp hybridizations coexist for particles larger than roughly 90 atoms. Among different structures we recognize sp2 closed networks encaging sp chains. This "nutshell" configuration can prevent the fragmentation of sp species upon deposition of the clusters thus allowing the formation of nanostructured films containing carbynoid species, as shown by Raman spectroscopy. Atomistic simulations confirm that the observed Raman spectra are the signature of the sp/sp2 hybridization characteristic of the isolated clusters and surviving in the film and provide information about the structure of the sp chains. Endohedral sp chains in sp2 cages represent a novel way in which carbon nanostructures may be organized with potential interesting functional properties., Comment: 13 pages, 4 figures

Published
2005
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12. Cluster Beam Deposition and in situ Characterization of Carbyne-rich Carbon Films

Author

Ravagnan, L., Siviero, F., Lenardi, C., Piseri, P., Barborini, E., Milani, P., Casari, C., Bassi, A. Li, and Bottani, C. E.

Subjects
Condensed Matter - Materials Science
Abstract

Nanostructured carbon films produced by supersonic cluster beam deposition have been studied by in situ Raman spectroscopy. Raman spectra show the formation of a sp2 solid with a very large fraction of sp-coordinated carbyne species showing a long-term stability under ultra high vacuum. Distinct Raman contribution from polyyne and cumulene species have been observed. The long-term stability and the behavior of carbyne-rich films under different gas exposure have been characterized showing different evolution for different sp configurations. Our experiments confirm theoretical predictions and demonstrate the possibility of easily producing a stable carbyne-rich pure carbon solid. The stability of the sp2-sp network has important implications for astrophysics and for the production of novel carbon-based systems., Comment: RevTeX4, 4 pages, 4 figures, submitted to PRL

Published
2002
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13. Il testimone. Mattia Ceccotti

Author

Fanchi, M, Lombardi, M, Eugeni, R, Saracino, S, Venturelli, V, Lifonti, D, Stagnitto, A, Abbiezzi, P, Caputo, L, Locatelli, E, Morandi, R, Carlo, S, Varini, M, Crotta, C, Locatelli, M, Ovena, L, Messetti, G, Fumagalli, A, Piredda, M, F, Scaglioni, M, Crippa, N, Contu, M, G, Bionda, F, Bianchi, S, Cortese, F, M, Gomarasca, P, Franceschini, S, Vilardi, I, Peja, L, Monti, L, Braga, I, Cantù, C, Musso, P, Fiocca, R, Bottani, C, Tunisini, A, Sebastiani, R, Anzivino, A, Covassi, G, Hu, L, Nadin, G, Giulietti, D, Dondena, M, Ravasio, M, Bionda, M, L, Corallo, M, Vottero, A, Rabozzi, R, Cantarelli, L, Mussa, S, Galimberti, C, Stellari, A, Gaudio, D, P, Bresciani, G, ALMED - Alta Scuola in Media, Comunicazione e Spettacolo, Varini, Michele, Varini Michele (ORCID:0000-0002-7912-975X), Fanchi, M, Lombardi, M, Eugeni, R, Saracino, S, Venturelli, V, Lifonti, D, Stagnitto, A, Abbiezzi, P, Caputo, L, Locatelli, E, Morandi, R, Carlo, S, Varini, M, Crotta, C, Locatelli, M, Ovena, L, Messetti, G, Fumagalli, A, Piredda, M, F, Scaglioni, M, Crippa, N, Contu, M, G, Bionda, F, Bianchi, S, Cortese, F, M, Gomarasca, P, Franceschini, S, Vilardi, I, Peja, L, Monti, L, Braga, I, Cantù, C, Musso, P, Fiocca, R, Bottani, C, Tunisini, A, Sebastiani, R, Anzivino, A, Covassi, G, Hu, L, Nadin, G, Giulietti, D, Dondena, M, Ravasio, M, Bionda, M, L, Corallo, M, Vottero, A, Rabozzi, R, Cantarelli, L, Mussa, S, Galimberti, C, Stellari, A, Gaudio, D, P, Bresciani, G, ALMED - Alta Scuola in Media, Comunicazione e Spettacolo, Varini, Michele, and Varini Michele (ORCID:0000-0002-7912-975X)

Abstract

Il contributo approfondisce il caso di studi di Mattia Ceccotti e la sua carriera, iniziata con la posizione di junior consultant fino ad arrivare alla situazione attuale, che lo vede impegnato nella gestione e acquisizione clienti.

Published
2023

19. Accuracy of dielectric-dependent hybrid functionals in the prediction of optoelectronic properties of metal oxide semiconductors: A comprehensive comparison with many-body GW and experiments

Author

Gerosa, M, Bottani, C, Di Valentin, C, Onida, G, Pacchioni, G, Gerosa, M., Bottani, C. E., Di Valentin, C., Onida, G., Pacchioni, G., Gerosa, M, Bottani, C, Di Valentin, C, Onida, G, Pacchioni, G, Gerosa, M., Bottani, C. E., Di Valentin, C., Onida, G., and Pacchioni, G.

Abstract

Understanding the electronic structure of metal oxide semiconductors is crucial to their numerous technological applications, such as photoelectrochemical water splitting and solar cells. The needed experimental and theoretical knowledge goes beyond that of pristine bulk crystals, and must include the effects of surfaces and interfaces, as well as those due to the presence of intrinsic defects (e.g. oxygen vacancies), or dopants for band engineering. In this review, we present an account of the recent efforts in predicting and understanding the optoelectronic properties of oxides using ab initio theoretical methods. In particular, we discuss the performance of recently developed dielectric-dependent hybrid functionals, providing a comparison against the results of many-body GW calculations, including G 0 W 0 as well as more refined approaches, such as quasiparticle self-consistent GW. We summarize results in the recent literature for the band gap, the band level alignment at surfaces, and optical transition energies in defective oxides, including wide gap oxide semiconductors and transition metal oxides. Correlated transition metal oxides are also discussed. For each method, we describe successes and drawbacks, emphasizing the challenges faced by the development of improved theoretical approaches. The theoretical section is preceded by a critical overview of the main experimental techniques needed to characterize the optoelectronic properties of semiconductors, including absorption and reflection spectroscopy, photoemission, and scanning tunneling spectroscopy (STS).

Published
2018

30. Nanostructured and amorphous-like tungsten films grown by pulsed laser deposition.

Author

Dellasega, D., Merlo, G., Conti, C., Bottani, C. E., and Passoni, M.

Subjects
NANOSTRUCTURED materials, TUNGSTEN films, PULSED laser deposition, KINETIC energy, MICROSTRUCTURE
Abstract

An experimental investigation of nanostructured, micrometer-thick, tungsten films deposited by pulsed laser deposition is presented. The films are compact and pore-free, with crystal grain sizes ranging from 14 nm to less than 2 nm. It is shown how, by properly tailoring deposition rate and kinetic energy of ablated species, it is possible to achieve a detailed and separate control of both film morphology and structure. The role of the main process parameters, He background pressure, laser fluence, and energy, is elucidated. In contrast with W films produced with other PVD techniques, β-phase growth is avoided and the presence of impurities and contaminants, like oxygen, is not correlated with film structure. These features make these films interesting for the development of coatings with improved properties, like increased corrosion resistance and enhanced diffusion barriers. [ABSTRACT FROM AUTHOR]

Published
2012
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31. Thermoelectric properties of Bi–Te films with controlled structure and morphology.

Author

Li Bassi, A., Bailini, A., Casari, C. S., Donati, F., Mantegazza, A., Passoni, M., Russo, V., and Bottani, C. E.

Subjects
THERMOELECTRICITY, THIN films, PULSED laser deposition, CRYSTAL grain boundaries, PHONONS, THERMAL conductivity
Abstract

A study of the thermoelectric transport properties of Bi–Te thin films with different structures and morphologies is here presented. Films were grown by pulsed laser deposition (PLD), which permits to control the composition, phase and crystallinity of the deposited material, and the morphology at the micrometer/nanometer scale. The carrier density and mobility at room temperature and the in plane electrical resistivity and Seebeck coefficient in the temperature range 300–400 K have been measured both for films characterized by a compact morphology and by the presence of different phases (Bi2Te3, BiTe, and Bi4Te3) and for Bi2Te3 films with different morphologies at the micrometer/nanometer scale (from a compact structure to a less connected assembly of randomly oriented crystalline grains). The correlation among thermoelectric and structural properties has been investigated, showing the potential of PLD to produce n-type Bi–Te thin films with desired properties for peculiar applications. Films with a layered Bi2Te3 structure show the best properties, with Seebeck coefficient in the range from -175 to -250 μV/K and power factor in the range 20–45 μW/cm K2, with expected ZT values greater than 1.5. Also films composed by partially randomly oriented submicrometer crystals look promising, since the smaller power factor (∼10 μW/cm K2) can in principle be compensated by a strong reduction of the phonon thermal conductivity via proper engineering of grain boundaries. [ABSTRACT FROM AUTHOR]

Published
2009
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32. Raman spectroscopy characterization of titania nanoparticles produced by flame pyrolysis: The influence of size and stoichiometry.

Author

Li Bassi, A., Cattaneo, D., Russo, V., Bottani, C. E., Barborini, E., Mazza, T., Piseri, P., Milani, P., Ernst, F. O., Wegner, K., and Pratsinis, S. E.

Subjects
TITANIUM dioxide, NANOPARTICLES, PYROLYSIS, RAMAN spectroscopy, STOICHIOMETRY, RAMAN effect
Abstract

A systematic study of the shift and linewidth of the Eg Raman peak at 144 cm-1 of anatase TiO2 nanopowders, produced by a flame aerosol technique, is here presented. The analysis was performed as a function of the crystal domain size and of the degree of oxidation. In the nanopowders, a clear contribution of the stoichiometry defects to the peak shift was evidenced, while the peak width seems to be less affected by the oxygen content. The Raman peak behavior due to size reduction has been interpreted in the framework of a phonon quantum confinement model. A critical review of the different approaches to this model, adopted in the literature to explain the behavior of the anatase Raman spectra as a function of the domain size, is presented. In particular, the hypothesis of a three-dimensional isotropic model for the dispersion relations is discussed. This analysis evidences general limits in the application of the phonon confinement model to the study and characterization of nanoparticles and nanostructured materials, showing how an uncritical use of the confinement theory can yield distorted results. [ABSTRACT FROM AUTHOR]

Published
2005
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33. Debye temperature of erbium-doped yttrium aluminum garnet from luminescence and Brillouin...

Author

Beghi, M. G. and Bottani, C. E.

Subjects
*YTTRIUM alloys, *RARE earth metals, *BRILLOUIN scattering, *PHOTOLUMINESCENCE
Abstract

Presents a study which investigated the debye temperature of erbium-doped yttrium aluminum garnet (YAG) using Brillouin scattering and photoluminescence (PL) spectroscopy. Applications of rare earth (RE) elements; Methodology used in the study; Results.

Published
2000
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40. Raman scattering characterization of amorphous carbon from photothermal oxidation of fullerite.

Author

Manfredini, M., Bottani, C. E., and Milani, P.

Subjects
*RAMAN effect, *AMORPHOUS substances, *CARBON, *FULLERENES
Abstract

Focuses on a study which conducted a Raman scattering characterization of amorphous carbon from photothermal oxidation of fullerite. Fabrication of the study sample; Time evolution of fullerite single-crystal Raman spectra; Evolution of the fit parameters with power density.

Published
1995
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41. Synthesis and characterization of cluster-assembled carbon thin films.

Author

Milani, P., Ferretti, M., Piseri, P., Bottani, C. E., Ferrari, A., Li Bassi, A., Guizzetti, G., and Patrini, M.

Subjects
THIN films, MICROCLUSTERS
Abstract

Reports on the synthesis and characterization of cluster-assembled carbon thin films. Deposition of supersonic cluster beams; Generation of clusters by a pulsed arc cluster ion source; Use of scanning electron microscopy, Raman and optical spectroscopy; Graphite-like nature of the films; Use of cluster beam deposition for the synthesis of nanocrystalline thin films.

Published
1997
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42. Effect of different preparation conditions on light emission from silicon implanted SiO2 layers.

Author

Ghislotti, G., Nielsen, B., Asoka-Kumar, P., Lynn, K. G., Gambhir, A., Di Mauro, L. F., and Bottani, C. E.

Subjects
SILICON oxide, PHOTOLUMINESCENCE
Abstract

Provides information on a study that performed continuous and time-gated photoluminescence of Si[sup+] implanted SiO[sub2] layers from the as-implanted samples. Experimental procedure; Results and discussion on the study; Conclusions.

Published
1996
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43. Nanostructured Ag4O4 films with enhanced antibacterial activity

Author

Dellasega, D, Facibeni, A, Di Fonzo, F, Bogana, M, Polissi, A, Conti, C, Ducati, C, Casari, C, Li Bassi, A, Bottani, C, Bottani, C., POLISSI, ALESSANDRA, Dellasega, D, Facibeni, A, Di Fonzo, F, Bogana, M, Polissi, A, Conti, C, Ducati, C, Casari, C, Li Bassi, A, Bottani, C, Bottani, C., and POLISSI, ALESSANDRA

Abstract

Ag4O4 (i.e. silver(I)-silver(III) oxide) thin films with tailored structure and morphology at the nanoscale have been grown by reactive pulsed laser deposition (PLD) in an oxygen-containing atmosphere and they are shown to exhibit a very strong antibacterial activity towards Gram-negative bacteria (E. coli) and to completely inhibit the growth of Gram-positive bacteria (S. aureus). The formation of this particular high-valence silver oxide is explained in terms of the reactions occurring during the expansion of the ablated species in the reactive atmosphere, leading to the formation of low-stability Ag-O dimers and atomic oxygen, providing reactive species at the substrate where the film grows. PLD is shown to allow control of the structure (i.e. crystallinity and grain size) and of the morphology of the films, from compact and columnar to foam-like, thus allowing the deposition of nanocrystalline films with increased porosity and surface area. The antibacterial action towards E. coli is demonstrated and is shown to be superior to that of nanostructured Ag-based medical products. This can be related to the release of Ag ions with high oxidation number, which are known to be very reactive towards bacteria, and to the peculiar morphology at the nanoscale resulting in a large effective surface area. © 2008 IOP Publishing Ltd.

Published
2008

44. Metodo e apparato per la deposizione di strati sottili nanostrutturati con morfologia e nanostruttura controllata ( Nanostrutture). Method and apparatus for depositing nanostructured thin layers with controlled morphology and nanostructure

Author

RICCARDI, CLAUDIA, FUMAGALLI, FRANCESCO, Bottani, C, Di Fonzo, F., Riccardi, C, Fumagalli, F, Bottani, C, and Di Fonzo, F

Subjects
Plasma Jet Deposition, Nanostructures, FIS/01 - FISICA SPERIMENTALE
Abstract

A novel, controllable nanostructured thin film deposition technique was proposed. It exploits the separation of the process in two distinct phases. First precursor dissociation and radical formation is performed in a dense oxidizing plasma. Then nucleation and aggregation of molecular clusters occur during the expansion into vacuum of a supersonic jet. This allows a superior control of cluster size and energy in the process of film growth.

Published
2009

46. Communication: Hole localization in Al-doped quartz SiO2 within ab initio hybrid-functional DFT

Author

Gerosa, M, DI VALENTIN, C, Bottani, C, Onida, G, Pacchioni, G, DI VALENTIN, CRISTIANA, PACCHIONI, GIANFRANCO, Gerosa, M, DI VALENTIN, C, Bottani, C, Onida, G, Pacchioni, G, DI VALENTIN, CRISTIANA, and PACCHIONI, GIANFRANCO

Abstract

We investigate the long-standing problem of hole localization at the Al impurity in quartz SiO2, using a relatively recent DFT hybrid-functional method in which the exchange fraction is obtained ab initio, based on an analogy with the static many-body COHSEX approximation to the electron self-energy. As the amount of the admixed exact exchange in hybrid functionals has been shown to be determinant for properly capturing the hole localization, this problem constitutes a prototypical benchmark for the accuracy of the method, allowing one to assess to what extent self-interaction effects are avoided. We obtain good results in terms of description of the charge localization and structural distortion around the Al center, improving with respect to the more popular B3LYP hybrid-functional approach. We also discuss the accuracy of computed hyperfine parameters, by comparison with previous calculations based on other self-interaction-free methods, as well as experimental values. We discuss and rationalize the limitations of our approach in computing defect-related excitation energies in low-dielectric-constant insulators.

Published
2015

47. Defect calculations in semiconductors through a dielectric-dependent hybrid DFT functional: The case of oxygen vacancies in metal oxides

Author

Gerosa, M, Bottani, C, Caramella, L, Onida, G, DI VALENTIN, C, Pacchioni, G, DI VALENTIN, CRISTIANA, PACCHIONI, GIANFRANCO, Gerosa, M, Bottani, C, Caramella, L, Onida, G, DI VALENTIN, C, Pacchioni, G, DI VALENTIN, CRISTIANA, and PACCHIONI, GIANFRANCO

Abstract

We investigate the behavior of oxygen vacancies in three different metal-oxide semiconductors (rutile and anatase TiO2, monoclinic WO3, and tetragonal ZrO2) using a recently proposed hybrid density-functional method in which the fraction of exact exchange is material-dependent but obtained ab initio in a self-consistent scheme. In particular, we calculate charge-transition levels relative to the oxygen-vacancy defect and compare computed optical and thermal excitation/emission energies with the available experimental results, shedding light on the underlying excitation mechanisms and related materials properties. We find that this novel approach is able to reproduce not only ground-state properties and band structures of perfect bulk oxide materials but also provides results consistent with the optical and electrical behavior observed in the corresponding substoichiometric defective systems.

Published
2015

48. Electronic structure and phase stability of oxide semiconductors: Performance of dielectric-dependent hybrid functional DFT, benchmarked against GW band structure calculations and experiments

Author

Gerosa, M, Bottani, C, Caramella, L, Onida, G, DI VALENTIN, C, Pacchioni, G, DI VALENTIN, CRISTIANA, PACCHIONI, GIANFRANCO, Gerosa, M, Bottani, C, Caramella, L, Onida, G, DI VALENTIN, C, Pacchioni, G, DI VALENTIN, CRISTIANA, and PACCHIONI, GIANFRANCO

Abstract

We investigate band gaps, equilibrium structures, and phase stabilities of several bulk polymorphs of wide-gap oxide semiconductors ZnO, TiO2,ZrO2, and WO3. We are particularly concerned with assessing the performance of hybrid functionals built with the fraction of Hartree-Fock exact exchange obtained from the computed electronic dielectric constant of the material. We provide comparison with more standard density-functional theory and GW methods. We finally analyze the chemical reduction of TiO2 into Ti2O3, involving a change in oxide stoichiometry. We show that the dielectric-dependent hybrid functional is generally good at reproducing both ground-state (lattice constants, phase stability sequences, and reaction energies) and excited-state (photoemission gaps) properties within a single, fully ab initio framework.

Published
2015

49. Two-dimensional TiOx nanostructures on Au(111): A scanning tunneling microscopy and spectroscopy investigation

Author

Tumino, F, Carrozzo, P, Mascaretti, L, Casari, C, Passoni, M, Tosoni, S, Bottani, C, Bassi, A, Bassi, A., TOSONI, SERGIO PAOLO, Tumino, F, Carrozzo, P, Mascaretti, L, Casari, C, Passoni, M, Tosoni, S, Bottani, C, Bassi, A, Bassi, A., and TOSONI, SERGIO PAOLO

Abstract

We investigated the growth of titanium oxide two-dimensional nanostructures on Au(111), produced by Ti evaporation and post-deposition oxidation. Scanning tunneling microscopy and spectroscopy (STM and STS) and low-energy electron diffraction measurements characterized the morphological, structural and electronic properties of the observed structures. Five distinct TiOx phases were identified: the honeycomb and pinwheel phases appear as monolayer films wetting the gold surface, while nanocrystallites of the triangular, row and needle phases grow mainly over the honeycomb or pinwheel layers. Density Functional Theory investigation of the honeycomb structure supports a (2 × 2)structural model based on a Ti-O bilayer having Ti2O3 stoichiometry. The pinwheel phase was observed to evolve, for increasing coverage, from single triangular crystallites to a well-ordered film forming a (4√7 × 4√7)R19.1° superstructure, which can be interpreted within a moiré-like model. Structural characteristics of the other three phases were disclosed from the analysis of high-resolution STMmeasurements. STS measurements revealed a partial metallization of honeycomb and pinwheel and a semiconducting character of row and triangular phases.

Published
2015

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