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26 results on '"Bottani, Carlo E."'

1. Topology-dependent conjugation effects in graphdiyne molecular fragments

Author

Serafini, Patrick, Milani, Alberto, Tommasini, Matteo, Bottani, Carlo E., and Casari, Carlo S.

Subjects
Condensed Matter - Materials Science
Abstract

Graphdiynes (GDYs) as two-dimensional carbon structures based on sp2 hybridized aromatic rings connected by sp-hybridized acetylenic linear links are gathering an increasing popularity, both for their peculiar properties and for the promising applications. In these materials, structural features affect the degree of pi-electron conjugation resulting in different electronic, optical and vibrational properties. In particular, how topology, connectivity between sp and sp2 domains and system size are related with the final properties is fundamental to understand structure-property relationships and to tailor the properties by proper structure design. By using a computational approach based on density functional theory calculations, we here investigate structure-property relations in a class of 1D and 2D GDY molecular fragments as building block models of extended structures. By analysing how the structure can modulate the pi-electron conjugation in these systems, HOMO-LUMO gap is found to depend on the peculiar topology and connections between linear sp domains and aromatic units. A topological indicator is computed, showing a trend with the gap and with the frequency of the main vibrational mode occurring in Raman spectra. Our findings can contribute to guide the molecular design of new GDY-based sp-sp2 carbon materials, aiming at tuning their properties by precise control of the structure., Comment: 13 pages, 5 figures

Published
2021
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2. Boron films produced by high energy Pulsed Laser Deposition

Author

Dellasega, David, Russo, Valeria, Pezzoli, Andrea, Conti, Claudia, Lecis, Nora, Besozzi, Edoardo, Beghi, Marco, Bottani, Carlo E., and Passoni, Matteo

Subjects
Condensed Matter - Materials Science
Abstract

Micron-thick boron films have been deposited by Pulsed Laser Deposition in vacuum on several substrates at room temperature. The use of high energy pulses (>700 mJ) results in the deposition of smooth coatings with low oxygen uptake even at base pressures of 10$^{-4}$ - 10$^{-3}$ Pa. A detailed structural analysis, by X-Ray Diffraction and Raman, allowed to assess the amorphous nature of the deposited films as well as to determine the base pressure that prevents boron oxide formation. In addition the crystallization dynamics has been characterized showing that film crystallinity already improves at relatively low temperatures (800 {\deg}C). Elastic properties of the boron films have been determined by Brillouin spectroscopy. Finally, micro-hardness tests have been used to explore cohesion and hardness of B films deposited on aluminum, silicon and alumina. The reported deposition strategy allows the growth of reliable boron coatings paving the way for their use in many technology fields., Comment: The research leading to these results has also received funding from the European Research Council Consolidator Grant ENSURE (ERC-2014-CoG No. 647554)

Published
2017
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3. Au-Ag template stripped pattern for scanning probe investigations of DNA arrays produced by Dip Pen Nanolithography

Author

Baserga, Andrea, Vigano', Marco, Casari, Carlo S., Turri, Stefano, Bassi, Andrea Li, Levi, Marinella, and Bottani, Carlo E.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We report on DNA arrays produced by Dip Pen Nanolithography (DPN) on a novel Au-Ag micro patterned template stripped surface. DNA arrays have been investigated by atomic force microscopy (AFM) and scanning tunnelling microscopy (STM) showing that the patterned template stripped substrate enables easy retrieval of the DPN-functionalized zone with a standard optical microscope permitting a multi-instrument and multi-technique local detection and analysis. Moreover the smooth surface of the Au squares (abput 5-10 angstrom roughness) allows to be sensitive to the hybridization of the oligonucleotide array with label-free target DNA. Our Au-Ag substrates, combining the retrieving capabilities of the patterned surface with the smoothness of the template stripped technique, are candidates for the investigation of DPN nanostructures and for the development of label free detection methods for DNA nanoarrays based on the use of scanning probes., Comment: Langmuir (accepted)

Published
2008
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11. Mechanical instabilities of metals Temperature changes during deforrnotion are indices of fundamental processes

Author

BOTTANI, CARLO E. and CAGLIOTI, GIUSEPPE

Abstract

ln the general context of the non-.linear thermodynamics of irreversible phenomena, the.thermoelasioptastic between transition occurring at the boundary the thermoelastic and thermoplastic régimes of deformation br m"ta,ttic À"terials can be seén as a bifurcation point. This non-equilibrium phase transformation is detected by measuing lhe rcmperature changes in a sample unaergoiij àefo,r;;i;;, since these are indices of fundamental processes" initial cooiingunderaÚiabaticconditionsdueíothethirÀiaelastice"fferítLorakitini,'185' )issuddentyfollowedbyarise il.r?!!?,::yn cau2_e-( bv entropy próduction in the highty irreversitte tnerÀiItastìc regime beyoìna tÀe niriícation. tnermal emtsston (l E) at and.beyond yielding can also be usefully exploited, tógether,ilith acoústic emiisiotn-if required, in the investigation of thermodynamic transformations or mechanlcal instabilities durin'g *nirn m,ecn'anìiat *ork is converted into thermal energy, as in creep, fatigue and fracture, for example.

Published
2013

17. Elastic Constants of Nanometer Thick Diamond-like Carbon Films

Author

DURHAM UNIV (UNITED KINGDOM) DEPT OF PHYSICS, Beghi, Marco G., Bottani, Carlo E., LiBassi, Andrea, PAstorelli, Rosanna, Tanner, Brian K., DURHAM UNIV (UNITED KINGDOM) DEPT OF PHYSICS, Beghi, Marco G., Bottani, Carlo E., LiBassi, Andrea, PAstorelli, Rosanna, and Tanner, Brian K.

Abstract

Carbon films of thickness down to 2 nanometers are necessary to achieve a storage density of 100 Gbit/in(exp2) in magnetic hard disks. Reliable methods to measure the properties of these ultrathin films still have to be developed. We show for the first time that combining Surface Brillouin Scattering (SBS) and X-ray reflectivity measurements the elastic constants of such films can be obtained. Tetrahedral amorphous carbon films were deposited on silicon, by an S bend filtered cathodic vacuum arc, which provides a continuous coverage on large areas free of macroparticles. Films of thickness down to 2 nm and density of ^3 g/cm(exp3) were produced and characterized. The dispersion relations of surface acoustic waves are measured by SBS for films of different thickness and for the bare substrate. Waves can be described by a continuum elastic model. Fitting of the dispersion relations, computed for given film properties, to the measured dispersion relations allows the derivation of the elastic constants. For a 8 nm thick film we find a Young's modulus E around 400 GPa, with a shear modulus G lying in the 130-210 GPa interval. For a 4.5 nm thick film, E is around 240 GPa, with 0 lying in the 70 - 130 GPa interval. Results for even thinner films become highly sensitive to the precision of the substrate properties, and indicate that the above values are lower bounds. We thus show that we can grow and characterize nanometer size tetrahedral amorphous carbon films, which maintain their density and mechanical properties down to the nm range., Pres: Materials Research Society Symp. Proc., v675 pW11.6.1-p11.6.6, 2001. This article is from ADA401251 Materials Research Society Symposium Proceedings. Volume 675. Nanotubes, Fullerenes, Nanostructured and Disordered Carbon. Symposium Held April 17-20, 2001, San Francisco, California, U.S.A.

Published
2001

19. CHARACTERIZATION OF HARD COATINGS FOR WEAR RESISTANT BIOMEDICAL DEVICES

Author

Gastaldi, Dario, primary, Franzoso, Giampaolo, additional, Carnelli, Davide, additional, Vena, Pasquale, additional, Contro, Roberto, additional, Beghi, Marco, additional, Casari, Carlo S., additional, Di Fonzo, Fabio, additional, Li Bassi, Andrea, additional, Tonini, Diego, additional, and Bottani, Carlo E., additional

Published
2008
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25. Raman spectroscopy of nonstacked graphene flakes produced by plasma microjet deposition.

Author

Passoni, Matteo, Russo, Valeria, Dellasega, David, Causa, Federica, Ghezzi, Francesco, Wolverson, Daniel, and Bottani, Carlo E.

Abstract

An extensive Raman investigation of few-layer graphene structures, obtained using a plasma microjet technique, is presented. Raman spectroscopy represents a unique method to characterize specific features of these systems. Excitation energies both in the visible and in the deep ultraviolet range are exploited, allowing to extract the main structural properties of the in-house deposited samples. Particular attention is given to the determination of the stacking order properties of these few-layer graphene structures. The results presented here also validate the plasma microjet as an efficient deposition technique to obtain graphene-based systems with a low number of layers and reduced coupling on well defined and spatially localized areas. Copyright © 2011 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published
2012
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26. Structural evolution of crystalline polymer latex films: Propagating and confined acoustic modes.

Author

Pierno, Matteo, Casari, Carlo S., Piazza, Roberto, and Bottani, Carlo E.

Subjects
POLYTEF, POLYMERS, BRILLOUIN scattering, ATOMIC force microscopy
Abstract

Structural evolution of polytetrafluoroethylene latex polymer films has been studied by Brillouin light scattering and atomic force microscopy (AFM). Using a tunable sintering process, we have controlled the degree of particle connectivity yielding a crossover in the behavior of acoustic excitations ranging from confined modes to propagating phonons. This transition has been correlated also to the surface morphology by AFM. Fully sintered films are characterized by extended "fibrillar" crystalline regions embedded in a disordered matrix, which still retain features of the original particulate structure. [ABSTRACT FROM AUTHOR]

Published
2003
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