Your search keyword '"Dal Zilio, Simone"' showing total 12 results

1. Energy Level Alignment at the Cobalt Phosphate/Electrolyte Interface: Intrinsic Stability vs Interfacial Chemical Reactions in 5 V Lithium Ion Batteries

Author

Cherkashinin, Gennady, Eilhardt, Robert, Nappini, Silvia, Cococcioni, Matteo, Píš, Igor, dal Zilio, Simone, Bondino, Federica, Marzari, Nicola, Magnano, Elena, and Alff, Lambert

Subjects

electronic-structure, phospho-olivines, moo3, high-rate performance, 02 engineering and technology, licopo4 5 v cathode material for li ion batteries, electronic structure, 010402 general chemistry, 021001 nanoscience & nanotechnology, lico2p3o10, 01 natural sciences, dft calculations, 0104 chemical sciences, fluoroethylene carbonate, x-ray-absorption, spes and xanes, electrochemical performance, General Materials Science, positive-electrode, fluorinated electrolytes, 0210 nano-technology, surface modification, high-voltage cathode

Abstract

The intrinsic stability of the 5 V LiCoPO4-LiCo2P3O10 thin-film (carbon-free) cathode material coated with MoO3 thin layer is studied using a comprehensive synchrotron electron spectroscopy in situ approach combined with firstprinciple calculations. The atomic-molecular level study demonstrates fully reversible electronic properties of the cathode after the first electrochemical cycle. The polyanionic oxide is not involved in chemical reactions with the tluoroethylene-containing liquid electrolyte even when charged to 5.1 V vs Li+/Li. The high stability of the cathode is explained on the basis of the developed energy level model. In contrast, the chemical composition of the cathode-electrolyte interface evolves continuously by involving MoO3 in the decomposition reaction with consequent leaching of oxide from the surface. The proposed mechanisms of chemical reactions are attributed to external electrolyte oxidation via charge transfer from the relevant electron level to the MoO3 valence band state and internal electrolyte oxidation via proton transfer to the solvents. This study provides a deeper insight into the development of both a doping strategy to enhance the electronic conductivity of high-voltage cathode materials and an efficient surface coating against unfavorable interfacial chemical reactions.

Published

2021

2. Supplementary document for Multidetection scheme for Transient-Grating-based spectroscopy - 6143720.pdf

Author

Brioschi, Marta, Carrara, Pietro, Polewczyk, Vincent, Deepak, Dagur, Vinai, Giovanni, Parisse, Pietro, Dal Zilio, Simone, Panaccione, Giancarlo, Rossi, Giorgio, and Cucini, Riccardo

Abstract

supplementary document .tex file plus figures

Published

2023

3. Author response for 'Atomic force spectroscopy-based essay to evaluate oocyte postovulatory aging'

Author

null Battistella, Alice, null Andolfi, Laura, null Zanetti, Michele, null Dal Zilio, Simone, null Stebel, Marco, null Ricci, Giuseppe, and null Lazzarino, Marco

Published

2021

4. Microlens arrays on large area UV transparent hybrid sol-gel materials for optical tools

Author

Dal Zilio, Simone, Della Giustina, Gioia, Brusatin, Giovanna, and Tormen, Massimo

Published

2010

5. Atomic force spectroscopy‐based essay to evaluate oocyte postovulatory aging

Author

Alice Battistella, Laura Andolfi, Michele Zanetti, Simone Dal Zilio, Marco Stebel, Giuseppe Ricci, Marco Lazzarino, Battistella, Alice, Andolfi, Laura, Zanetti, Michele, Dal Zilio, Simone, Stebel, Marco, Ricci, Giuseppe, and Lazzarino, Marco

Subjects

AFM measurement, oocytes mechanical properties, postovulatory aging, IVF, zona hardening, AFM measurements, Biomedical Engineering, Pharmaceutical Science, reproductive medicine, oocytes mechanical propertie, Biotechnology

Abstract

Postovulatory aging is a process occurring in the mature (MII) oocyte leading the unfertilized ones to apoptosis. The optimal time window of fertility for different mammalian species after oocytes maturation depends on its timeliness: the higher the time elapsed from the accomplishment of the MII stage, the lower are the chances of fertilization and of development of a viable embryo. In the in vitro fertilization, the selection of competent oocytes for intracytoplasmic sperm injection (ICSI) is mostly made by the visual inspection of the MII oocyte morphology, which does not allow to determine the oocyte postovulatory age. On the other hand, more specific tests usually involve some kind of staining, thus compromising the viability of the oocyte for reproductive purposes. Hence, the need of a noninvasive analysis of oocyte aging to improve the success rate of in vitro fertilization procedures. Here, we exploit atomic force microscopy to examine the evolution of the mechanical properties of mouse oocytes during in vitro postovulatory aging. Three hours before the occurrence of any visual morphological feature related to degradation, we observe a sudden change of the mechanical parameters: the elastic modulus doubles its initial value, while the viscosity decreases significantly. These mechanical variations are temporally correlated with the release of the cortical granules, investigated by fluorescence microscopy. Interestingly, the oocyte mechanics correlates as well with the yield of embryo formation, evaluated up to the blastocyst formation stage. These results demonstrate that minimally invasive mechanical measurements are very sensitive to the aging of the oocyte and can be used as a label-free method to detect the age of the postovulatory oocytes.

Published

2022

6. A comparative study of nanolaminate CrN/Mo2N and CrN/W2N as hard and corrosion resistant coatings

Author

Beltrami, Marco, Andraž, Mavrič, Simone Dal Zilio, Fanetti, Mattia, Gregor, Kapun, Lazzarino, Marco, Sbaizero, Orfeo, Miha, Čekada, Beltrami, Marco, Mavrič, Andraž, Dal Zilio, Simone, Fanetti, Mattia, Kapun, Gregor, Lazzarino, Marco, Sbaizero, Orfeo, and Čekada, Miha

Subjects

hardne, corrosion, Nanolaminate coating, molybdenum nitride, Nanolaminate coatings, cubic tungsten nitride, hardness, Materials Chemistry, Surfaces and Interfaces, General Chemistry, Condensed Matter Physics, Surfaces, Coatings and Films

Abstract

Nanolaminate coatings (NLC) consisting of alternated CrN coupled with either cubic tungsten nitride (β-W2N) or molybdenum nitride (γ-Mo2N) were deposited on cold worked tool steel substrates using reactive DC reactive magnetron sputtering for improved mechanical and corrosion resistance. The CrN/γ-Mo2N and CrN/β-W2N nanolaminate systems were found to perform better than the corresponding single-layer systems, with both mechanical and electrochemical properties improving by decreasing the individual layer thickness from 100 to 5 nm. The CrN/β-W2N NLC combined the high hardness value of W2N with the low corrosion current of CrN. The CrN/γ-Mo2N NLC showed synergistic improvements consisting of both higher hardness and lower corrosion currents with respect to the constituent materials alone. The dependence of mechanical and corrosion properties on the bilayer period is discussed in terms of the grain size, residual stresses and texture of the constituent materials and the nanostructured character of the multilayer architecture.

Published

2023

7. Frequency Modulated Raman Spectroscopy

Author

Denys Naumenko, Marco Lazzarino, Silvio Mario Luciano Greco, Alpan Bek, Simone Dal Zilio, Greco, Silvio, Dal Zilio, Simone, Bek, Alpan, Lazzarino, Marco, and Naumenko, Denys

Subjects

Materials science, Physics::Optics, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Frequency modulation, MEMS, Raman, SERS, symbols.namesake, Electrical and Electronic Engineering, Nanoscopic scale, Plasmon, business.industry, 021001 nanoscience & nanotechnology, Polarization (waves), Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, symbols, Optoelectronics, Scattered light, 0210 nano-technology, business, Raman spectroscopy, Nonlinear modulation, Intensity modulation, Quasistatic process, Biotechnology

Abstract

The coupling of plasmonic and mechanical properties at the nanoscale is of great potential for the development of next generation devices capable to detect weak forces, mass changes, minute displacements and temperature-induced effects. Both the transduction of mechanical motion to the scattered light fields in term of polarization or intensity modulation and plasmon-driven mechanical oscillations have already been demonstrated. Quasi static tunable hot spots have recently been designed and applied to surface-enhanced Raman spectroscopy (SERS). Here we fabricated a plasmomechanical device, with a plasmonic hot spot modulated at the oscillator eigenfrequency, and demonstrated that the nonlinear modulation of polarization-dependent SERS signal from a synthetic dye can be analyzed with lock-in techniques, thus, realizing frequency modulated Raman spectroscopy. © 2017 American Chemical Society.

Published

2017

8. Graphene nanobubbles on TiO2for in-operando electron spectroscopy of liquid-phase chemistry

Author

S. Dal Zilio, Alessia Matruglio, Marco Lazzarino, Elena Magnano, Federica Bondino, Denys Naumenko, Silvia Nappini, Nappini, Silvia, Matruglio, Alessia, Naumenko, D., DAL ZILIO, Simone, Bondino, Federica, Lazzarino, Marco, and Magnano, E.

Subjects

liquids, Materials science, Absorption spectroscopy, BACH beamline, in-operando, iron reduction, Nanotechnology, 02 engineering and technology, Electronic structure, 010402 general chemistry, 01 natural sciences, Electron spectroscopy, law.invention, X-ray photoelectron spectroscopy, law, synchrotron, TiO2, General Materials Science, graphene nanobubbles, liquid/solid interface, X-ray absorption spectroscopy, Graphene, graphene, 021001 nanoscience & nanotechnology, Inelastic mean free path, x-ray photoemission, 0104 chemical sciences, graphene nanobubble, in-situ, Chemical engineering, vacuum liquid cell, 0210 nano-technology, Single crystal

Abstract

X-Ray Photoelectron Spectroscopy (XPS) and X-Ray Absorption Spectroscopy (XAS) provide unique knowledge on the electronic structure and chemical properties of materials. Unfortunately this information is scarce when investigating solid/liquid interfaces and chemical or photochemical reactions under ambient conditions because of the short electron inelastic mean free path (IMFP) that requires a vacuum environment, which poses serious limitation on the application of XPS and XAS to samples present in the atmosphere or in the presence of a solvent. One promising approach is the use of graphene (Gr) windows transparent to both photons and electrons. This paper proposes an innovative system based on sealed Gr nanobubbles (GNBs) on a titanium dioxide TiO2 (100) rutile single crystal filled with the solution of interest during the fabrication stage. The GNBs were successfully employed to follow in-operando the thermal-induced reduction of FeCl3 to FeCl2 in aqueous solution. The electronic states of chlorine, iron and oxygen were obtained through a combination of electron spectroscopy methods (XPS and XAS) in different phases of the process. The interaction of various components in solution with solid surfaces constituting the cell was obtained, also highlighting the formation of a covalent C–Cl bond in the Gr structure. For the easiness of GNB fabrication and straightforward extension to a large variety of solutions, we envisage a broad application of the proposed approach to investigate in detail electronic mechanisms that regulate liquid/solid electron transfer in catalytic and energy conversion related applications.

Published

2017

9. Contamination-free suspended graphene structures by a Ti-based transfer method

Author

Federica Bondino, Alessia Matruglio, Marco Lazzarino, Elena Magnano, Silvia Nappini, Denys Naumenko, Simone Dal Zilio, Matruglio, Alessia, Nappini, Silvia, Naumenko, Deny, Magnano, Elena, Bondino, Federica, Lazzarino, Marco, and DAL ZILIO, Simone

Subjects

Materials science, chemistry.chemical_element, Nanotechnology, 02 engineering and technology, Substrate (electronics), 010402 general chemistry, 01 natural sciences, law.invention, law, Etching (microfabrication), Graphene transfer, General Materials Science, Graphene oxide paper, Titanium, Graphene, graphene, Graphene foam, General Chemistry, suspended Graphene, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, Chemical engineering, polymer residuals, Ti-based transfer, 0210 nano-technology, Graphene transfer, suspended Graphene, Titanium, polymer residuals, Layer (electronics), Graphene nanoribbons

Abstract

Minimization of contamination associated with the graphene transfer process from the growth substrate to the device surface is a major requirement for large scale CVD graphene device applications. The most widespread transfer methods are based on the use of a thin sacrificial polymeric layer such as poly(methyl methacrylate), but its complete removal after transfer is an unsolved problem; this issue is critical for suspended graphene, since the back surface often results contaminated by the dissolved polymer. Here we present a polymer-free method of commercial CVD-grown graphene transfer from the initial copper substrate to the silicon device, in which a 15 nm-thick titanium layer replaces completely the polymer film as supporting layer during the transfer process. Our approach reduces significantly the level of contaminations for supported and suspended graphene layers. Raman spectroscopy was used to prove the quality of the transferred graphene, not affected by this approach. X-ray photoelectron spectroscopy and X-ray absorption spectroscopy were used to assess the amount of the contaminants left by the transfer process. Overall carbon contamination was reduced by a factor 2, while contaminations originating from the metal etching in hydrofluoric acid, namely titanium and fluorine, were absent within the sensitivity of the used techniques. (C) 2016 Elsevier Ltd. All rights reserved.

Published

2016

10. Parallel optical read-out of micromechanical pillars applied to prostate specific membrane antigen detection

Author

Martina Tardivo, Sergio Carrato, Giulio Fracasso, Daniele Borin, Andrea Colusso, Moreno Meneghetti, Marco Lazzarino, Giacinto Scoles, Marco Colombatti, Valeria Toffoli, Simone Dal Zilio, Tardivo, Martina, Toffoli, Valeria, Fracasso, Giulio, Borin, Daniele, Dal Zilio, Simone, Colusso, Andrea, Carrato, Sergio, Scoles, Giacinto, Meneghetti, Moreno, Colombatti, Marco, and Lazzarino, Marco

Subjects

Male, Analyte, Materials science, Biomedical Engineering, Biophysics, Frequency shift, Nanotechnology, Biosensing Techniques, Tracking (particle physics), Buffer (optical fiber), parallel optical read-out detection, Resonator, Limit of Detection, Biomarkers, Tumor, PSMA, Electrochemistry, Glutamate carboxypeptidase II, Humans, Micromechanical sensors, Parallel optical read-out detection, Prostate specific membrane antigen, Biotechnology, Micromechanical sensors Parallel optical read-out detection Prostate Specific Membrane Antigen, Prostate, Prostatic Neoplasms, Equipment Design, General Medicine, Micro-Electrical-Mechanical Systems, Prostate-Specific Antigen, biosensors, prostate cancer, Prostate Specific Membrane Antigen, Antibodies, Immobilized, Biosensor, Sensitivity (electronics), Biomedical engineering

Abstract

Micro and nanomechanical resonators represent a promising platform for proteins label-free detection because of their extreme sensitivity, fast response and low cost. Micro-pillars are columnar resonators that can be easily arranged in dense arrays of several thousand sensors in a squared mm. To exploit such a large density, however, a method for tracking independently micropillars resonance frequency is required. Here we present a detection method based on CCD imaging and software image analysis, which can measure the resonance frequency of tens of pillars in parallel. Acquiring simultaneously the frequency shift of up to 40 sensors and applying a proper statistical analysis, we were able to overcome the variability of the single measures improving the device sensitivity at low analyte concentration range. As a proof of concept, this method has been tested for the detection of a tumor marker, the Prostate Specific Membrane Antigen (PSMA). Pillars have been functionalized with an antibody against PSMA. The tumor marker (PSMA) has been detected in a range of concentrations between 300 pM and 100 nM, in buffer and in diluted bovine serum. The sensitivity of our method was limited only by the affinity constant of the antigen–antibody recognition. Moreover, this detection technique demonstrated to be effective in the 1–6 nM range, which is the window of PSMA concentration of clinical interest.

Published

2015

11. Toward an integrated device for spatiotemporal superposition of free-electron lasers and laser pulses

Author

Marco Lazzarino, Filippo Bencivenga, Alessandro Gessini, Emiliano Principi, R. Sergo, Stefano Dallorto, Deirdre L. Olynick, Alessia Matruglio, R. Mincigrucci, G. Kurdi, Simone Dal Zilio, Scott Dhuey, A. Simoncig, Laura Foglia, A. Calvi, Claudio Masciovecchio, Mincigrucci, Riccardo, Matruglio, Alessia, Calvi, Andrea, Foglia, Laura, Principi, Emiliano, Simoncig, Alberto, Bencivenga, Filippo, Dallorto, Stefano, Gessini, Alessandro, Kurdi, Gabor, Olynick, Deirdre, Dhuey, Scott, Sergo, Rudi, Lazzarino, Marco, Masciovecchio, Claudio, and DAL ZILIO, Simone

Subjects

Novel technique, Free electron model, Atomic and Molecular Physics, and Optics, 02 engineering and technology, pump and probe, 01 natural sciences, Synchronization, law.invention, Superposition principle, Optics, law, 0103 physical sciences, 010306 general physics, Laser beams, Physics, detector, business.industry, wave overlap, 021001 nanoscience & nanotechnology, Laser, Sample (graphics), Atomic and Molecular Physics, and Optics, Characterization (materials science), Atomic and Molecular Physic, free-electron lasers, Physics::Accelerator Physics, Optoelectronics, 0210 nano-technology, business

Abstract

Free-electron lasers (FELs) currently represent a step forward on time-resolved investigations on any phase of matter through pump-probe methods involving FELs and laser beams. That class of experiments requires an accurate spatial and temporal superposition of pump and probe beams on the sample, which at present is still a critical procedure. More efficient approaches are demanded to quickly achieve the superposition and synchronization of the beams. Here, we present what we believe is a novel technique based on an integrated device allowing the simultaneous characterization and the fast spatial and temporal overlapping of the beams, reducing the alignment procedure from hours to minutes. (C) 2016 Optical Society of America

Published

2016

12. Enhanced plasmonic properties of gold-catalysed semiconductor nanowires

Author

Vincenzo Grillo, Denys Naumenko, Giacomo Priante, Valentina Zannier, Damiano Cassese, Silvia Rubini, Simone Dal Zilio, Marco Lazzarino, Naumenko, Deny, Zannier, Valentina, Grillo, Vincenzo, Cassese, Damiano, Priante, Giacomo, Dal Zilio, Simone, Rubini, Silvia, and Lazzarino, Marco

Subjects

Materials science, surface enhancement of Raman spectroscopy, business.industry, Graphene, Nanowire, Nanoparticle, Nanotechnology, law.invention, Pentacene, chemistry.chemical_compound, Semiconductor, chemistry, nanowires, law, Colloidal gold, Optoelectronics, Plasmonics, Plasmonics, surface enhancement of Raman spectroscopy, nanowires, Au nanoparticles, General Materials Science, business, Au nanoparticles, Plasmon, Molecular beam epitaxy

Abstract

A key challenge for the development of plasmonic nanodevices is their integration into active semiconducting structures. Gold-catalysed semiconductor nanowires are promising candidates for their bottom-up growth process that aligns a single gold nanoparticle at each nanowire apex. Unfortunately these show extremely poor plasmonic properties. In this work, we propose a way to enhance their plasmonic resonance up to those of ideal and isolated gold nanoparticles. A suitable purification protocol compatible with GaAs and ZnSe molecular beam epitaxy of nanowires is used to produce plasmonic active nanowires, which were used to enhance the Raman signal of pentacene and graphene oxide. Enhancement factors up to three orders of magnitude are demonstrated. This journal is

Published

2014