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455 results on '"SASSO, ANTONIO"'

1. Deep Learning for Optical Tweezers

Author

Ciarlo, Antonio, Ciriza, David Bronte, Selin, Martin, Maragò, Onofrio M., Sasso, Antonio, Pesce, Giuseppe, Volpe, Giovanni, and Goksör, Mattias

Subjects
Physics - Optics, Physics - Instrumentation and Detectors
Abstract

Optical tweezers exploit light--matter interactions to trap particles ranging from single atoms to micrometer-sized eukaryotic cells. For this reason, optical tweezers are a ubiquitous tool in physics, biology, and nanotechnology. Recently, the use of deep learning has started to enhance optical tweezers by improving their design, calibration, and real-time control as well as the tracking and analysis of the trapped objects, often outperforming classical methods thanks to the higher computational speed and versatility of deep learning. Here, we review how deep learning has already remarkably improved optical tweezers, while exploring the exciting, new future possibilities enabled by this dynamic synergy. Furthermore, we offer guidelines on integrating deep learning with optical trapping and optical manipulation in a reliable and trustworthy way., Comment: 19 pages, 7 figures, 1 table

Published
2024

2. Gamma rays impact on 2D-MoS2 in water solution

Author

Singh, Manjot, Bianco, Davide, Adam, Jaber, Capaccio, Angela, Clemente, Stefania, Del Sorbo, Maria Rosaria, Feoli, Chiara, Kaur, Jasneet, Nappi, Carmela, Panico, Mariarosaria, Rusciano, Giulia, Rossi, Manuela, Sasso, Antonio, Valadan, Mohammadhassan, Cuocolo, Alberto, Battista, Edmondo, Netti, Paolo Antonio, and Altucci, Carlo

Published
2024
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3. Optimal calibration of optical tweezers with arbitrary integration time and sampling frequencies -- A general framework

Author

Pérez-Garcéa, Laura, Selin, Martin, Ciarlo, Antonio, Magazzu, Alessandro, Pesce, Giuseppe, Sasso, Antonio, Volpe, Giovanni, Castillo, Isaac Pérez, and Arzola, Alejandro V.

Subjects
Physics - Optics, Physics - Instrumentation and Detectors
Abstract

Optical tweezers (OT) have become an essential technique in several fields of physics, chemistry, and biology as precise micromanipulation tools and microscopic force transducers. Quantitative measurements require the accurate calibration of the trap stiffness of the optical trap and the diffusion constant of the optically trapped particle. This is typically done by statistical estimators constructed from the position signal of the particle, which is recorded by a digital camera or a quadrant photodiode. The finite integration time and sampling frequency of the detector need to be properly taken into account. Here, we present a general approach based on the joint probability density function of the sampled trajectory that corrects exactly the biases due to the detector's finite integration time and limited sampling frequency, providing theoretical formulas for the most widely employed calibration methods: equipartition, mean squared displacement, autocorrelation, power spectral density, and force reconstruction via maximum-likelihood-estimator analysis (FORMA). Our results, tested with experiments and Monte Carlo simulations, will permit users of OT to confidently estimate the trap stiffness and diffusion constant, extending their use to a broader set of experimental conditions., Comment: 6 figures

Published
2023

4. Deep learning for optical tweezers

Author

Ciarlo Antonio, Ciriza David Bronte, Selin Martin, Maragò Onofrio M., Sasso Antonio, Pesce Giuseppe, Volpe Giovanni, and Goksör Mattias

Subjects
optical tweezers, deep learning, optical manipulation, Physics, QC1-999
Abstract

Optical tweezers exploit light–matter interactions to trap particles ranging from single atoms to micrometer-sized eukaryotic cells. For this reason, optical tweezers are a ubiquitous tool in physics, biology, and nanotechnology. Recently, the use of deep learning has started to enhance optical tweezers by improving their design, calibration, and real-time control as well as the tracking and analysis of the trapped objects, often outperforming classical methods thanks to the higher computational speed and versatility of deep learning. In this perspective, we show how cutting-edge deep learning approaches can remarkably improve optical tweezers, and explore the exciting, new future possibilities enabled by this dynamic synergy. Furthermore, we offer guidelines on integrating deep learning with optical trapping and optical manipulation in a reliable and trustworthy way.

Published
2024
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6. Cage Size and Jump Precursors in Glass-Forming Liquids: Experiment and Simulations

Author

Pastore, Raffaele, Pesce, Giuseppe, Sasso, Antonio, and Ciamarra, Massimo Pica

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Statistical Mechanics, Physics - Chemical Physics
Abstract

Glassy dynamics is intermittent, as particles suddenly jump out of the cage formed by their neighbours, and heterogeneous, as these jumps are not uniformly distributed across the system. Relating these features of the dynamics to the diverse local environments explored by the particles is essential to rationalize the relaxation process. Here we investigate this issue characterizing the local environment of a particle with the amplitude of its short time vibrational motion, as determined by segmenting in cages and jumps the particle trajectories. Both simulations of supercooled liquids and experiments on colloidal suspensions show that particles in large cages are likely to jump after a small time-lag, and that, on average, the cage enlarges shortly before the particle jumps. At large time-lags, the cage has essentially a constant value, which is smaller for longer-lasting cages. Finally, we clarify how this coupling between cage size and duration controls the average behaviour and opens the way to a better understanding of the relaxation process in glass--forming liquids., Comment: Letter, 4 figures

Published
2017
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7. Gamma rays impact on 2D-MoS2 in water solution.

Author

Singh, Manjot, Bianco, Davide, Adam, Jaber, Capaccio, Angela, Clemente, Stefania, Del Sorbo, Maria Rosaria, Feoli, Chiara, Kaur, Jasneet, Nappi, Carmela, Panico, Mariarosaria, Rusciano, Giulia, Rossi, Manuela, Sasso, Antonio, Valadan, Mohammadhassan, Cuocolo, Alberto, Battista, Edmondo, Netti, Paolo Antonio, and Altucci, Carlo

Abstract

Two-dimensional transition metal dichalcogenides, particularly MoS2, are interesting materials for many applications in aerospace research, radiation therapy and bioscience more in general. Since in many of these applications MoS2-based nanomaterials can be placed in an aqueous environment while exposed to ionizing radiation, both experimental and theoretical studies of their behaviour under these conditions is particularly interesting. Here, we study the effects of tiny imparted doses of 511 keV photons to MoS2 nanoflakes in water solution. To the best of our knowledge, this is the first study in which ionizing radiation on 2D-MoS2 occurs in water. Interestingly, we find that, in addition to the direct interaction between high-energy photons and nanoflakes, reactive chemical species, generated by γ-photons induced radiolysis of water, come into play a relevant role. A radiation transport Monte Carlo simulation allowed determining the elements driving the morphological and spectroscopical changes of 2D-MoS2, experimentally monitored by SEM microscopy, DLS, Raman and UV–vis spectroscopy, AFM, and X-ray photoelectron techniques. Our study demonstrates that radiolysis products affect the Molybdenum oxidation state, which is massively changed from the stable + 4 and + 6 states into the rarer and more unstable + 5. These findings will be relevant for radiation-based therapies and diagnostics in patients that are assuming drugs or contrast agents containing 2D-MoS2 and for aerospace biomedical applications of 2DMs investigating their actions into living organisms on space station or satellites. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Dark spots along slowly scaling chains of plasmonic nanoparticles

Author

Zito, Gianluigi, Rusciano, Giulia, and Sasso, Antonio

Subjects
Physics - Optics
Abstract

We numerically investigate the optical response of slowly scaling linear chains of mismatched silver nanoparticles. Hybridized plasmon chain resonances manifest unusual local field distributions around the nanoparticles that result from symmetry breaking of the geometry. Importantly, we find localization patterns characterized by bright hot-spots alternated by what we term \textit{dark} spots. A dark spot is associated to dark plasmons that have collinear and antiparallel dipole moments along the chain. As a result, the field amplification in the dark interjunction gap is extinguished for incident polarization parallel to the chain axis. Despite the strong plasmonic coupling, the nanoparticles on the sides of this dark gap experience a dramatic asymmetric field amplification with amplitude gain contrast $> 2 \times 10^2$. Remarkably, also for polarization orthogonal to the axis, gap hot-spots form on resonance., Comment: 6 pages, 2 figures

Published
2016
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9. Simultaneous measurements of electrophoretic and dielectrophoretic forces using optical tweezers

Author

Pesce, Giuseppe, Rusciano, Giulia, Zito, Gianluigi, and Sasso, Antonio

Subjects
Physics - Optics, Condensed Matter - Soft Condensed Matter
Abstract

Herein, charged microbeads handled with optical tweezers are used as a sensitive probe for simultaneous measurements of electrophoretic and dielectrophoretic forces. We first determine the electric charge carried by a single bead by keeping it in a predictable uniform electric field produced by two parallel planar electrodes, then, we examine same bead's response in proximity to a tip electrode. In this case, besides electric forces, the bead simultaneously experiences non-negligible dielectrophoretic forces produced by the strong electric field gradient. The stochastic and deterministic motions of the trapped bead are theoretically and experimentally analysed in terms of the autocorrelation function. By fitting the experimental data, we are able to extract simultaneously the spatial distribution of electrophoretic and dielectrophoretic forces around the tip. Our approach can be used for determining actual, total force components in the presence of high-curvature electrodes or metal scanning probe tips., Comment: 9 pages, 3 figures

Published
2015
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10. A Step-by-step Guide to the Realisation of Advanced Optical Tweezers

Author

Pesce, Giuseppe, Volpe, Giorgio, Marago, Onofrio M., Jones, Philip H., Gigain, Sylvain, Sasso, Antonio, and Volpe, Giovanni

Subjects
Physics - Optics
Abstract

Since the pioneering work of Arthur Ashkin, optical tweezers have become an indispensable tool for contactless manipulation of micro- and nanoparticles. Nowadays optical tweezers are employed in a myriad of applications demonstrating the importance of these tools. While the basic principle of optical tweezers is the use of a strongly focused laser beam to trap and manipulate particles, ever more complex experimental set-ups are required in order to perform novel and challenging experiments. With this article, we provide a detailed step- by-step guide for the construction of advanced optical manipulation systems. First, we explain how to build a single-beam optical tweezers on a home-made microscope and how to calibrate it. Improving on this design, we realize a holographic optical tweezers, which can manipulate independently multiple particles and generate more sophisticated wavefronts such as Laguerre-Gaussian beams. Finally, we explain how to implement a speckle optical tweezers, which permit one to employ random speckle light fields for deterministic optical manipulation., Comment: 29 pages, 7 figures

Published
2015
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11. Connecting short and long time dynamics in hard-sphere-like colloidal glasses

Author

Pastore, Raffaele, Ciamarra, Massimo Pica, Pesce, Giuseppe, and Sasso, Antonio

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Materials Science, Condensed Matter - Statistical Mechanics
Abstract

Glass-forming materials are characterized by an intermittent motion at the microscopic scale. Particles spend most of their time rattling within the cages formed by their neighbors, and seldom jump to a different cage. In molecular glass formers the temperature dependence of the jump features, such as the average caging time and jump length, characterizes the relaxation processes and allows for a short-time prediction of the diffusivity. Here we experimentally investigate the cage-jump motion of a two-dimensional hard-sphere-like colloidal suspension, where the volume fraction is the relevant parameter controlling the slowing down of the dynamics. We characterize the volume fraction dependence of the cage-jump features and show that, as in molecular systems, they allow for a short time prediction of the diffusivity., Comment: 5 pages, 6 figures, Soft Matter 2015

Published
2014
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13. Surface charge and hydrodynamic coefficient measurements of {\it Bacillus subtilis} spore by Optical Tweezers

Author

Pesce, Giuseppe, Rusciano, Giulia, Sasso, Antonio, Isticato, Rachele, Sirec, Teja, and Ricca, Ezio

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

In this work we report on the simultaneous measurement of the hydrodynamic coefficient and the electric charge of single {\it Bacillus subtilis} spores. The latter has great importance in protein binding to spores and in the adhesion of spores onto surfaces. The charge and the hydrodynamic coefficient were measured by an accurate procedure based on the analysis of the motion of single spores confined by an optical trap. The technique has been validated using charged spherical polystyrene beads. The excellent agreement of our results with the expected values demonstrates the quality of our procedure. We measured the charge of spores of {\it B. subtilis} purified from a wild type strain and from two isogenic mutants characterized by an altered spore surface. Our technique is able to discriminate the three spore types used, by their charge and by their hydrodynamic coefficient which is related to the hydrophobic properties of the spore surface., Comment: 21 pages 5 figures

Published
2014
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14. Longterm Influence of Inertia on the Diffusion of a Brownian Particle

Author

Pesce, Giuseppe, Volpe, Giorgio, Volpe, Giovanni, and Sasso, Antonio

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Soft Condensed Matter
Abstract

We demonstrate experimentally that a Brownian particle is subject to inertial effects at long time scales. By using a blinking optical tweezers, we extend the range of previous experiments by several orders of magnitude up to a few seconds. The measured mean square displacement of a freely diffusing Brownian particle in a liquid shows a deviation from the Einstein-Smoluchowsky theory that diverges with time. These results are consistent with a generalized theory that takes into account not only the particle inertia but also the inertia of the fluid surrounding the particle. This can lead to a bias in the estimation of the diffusion coefficient from finite-time measurements. We show that the decay of the relative error is polynomial and not exponential and, therefore, can have significant effects at time scales relevant for experiments., Comment: 5 pages, 4 figures

Published
2014
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16. Influence of rotational force fields on the determination of the work done on a driven Brownian particle

Author

Pesce, Giuseppe, Volpe, Giovanni, Imparato, Alberto, Rusciano, Giulia, and Sasso, Antonio

Subjects
Condensed Matter - Statistical Mechanics
Abstract

For a Brownian system the evolution of thermodynamic quantities is a stochastic process. In particular, the work performed on a driven colloidal particle held in an optical trap changes for each realization of the experimental manipulation, even though the manipulation protocol remains unchanged. Nevertheless, the work distribution is governed by established laws. Here, we show how the measurement of the work distribution is influenced by the presence of rotational, i.e. nonconservative, radiation forces. Experiments on particles of different materials show that the rotational radiation forces, and therefore their effect on the work distributions, increase with the particle refractive index., Comment: 12 pages, 4 figures

Published
2010
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21. The Effectiveness of Cyrene as a Solvent in Exfoliating 2D TMDs Nanosheets

Author

Adam, Jaber, primary, Singh, Manjot, additional, Abduvakhidov, Avazbek, additional, Del Sorbo, Maria Rosaria, additional, Feoli, Chiara, additional, Hussain, Fida, additional, Kaur, Jasneet, additional, Mirabella, Antonia, additional, Rossi, Manuela, additional, Sasso, Antonio, additional, Valadan, Mohammadhassan, additional, Varra, Michela, additional, Rusciano, Giulia, additional, and Altucci, Carlo, additional

Published
2023
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25. Characterization of Hyaluronic Acid-Coated PLGA Nanoparticles by Surface-Enhanced Raman Spectroscopy

Author

La Verde, Giuseppe, primary, Sasso, Antonio, additional, Rusciano, Giulia, additional, Capaccio, Angela, additional, Fusco, Sabato, additional, Mayol, Laura, additional, Biondi, Marco, additional, Silvestri, Teresa, additional, Netti, Paolo A., additional, La Commara, Marco, additional, Panzetta, Valeria, additional, and Pugliese, Mariagabriella, additional

Published
2022
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36. Characterization of Hyaluronic Acid-Coated PLGA Nanoparticles by Surface-Enhanced Raman Spectroscopy.

Author

La Verde, Giuseppe, Sasso, Antonio, Rusciano, Giulia, Capaccio, Angela, Fusco, Sabato, Mayol, Laura, Biondi, Marco, Silvestri, Teresa, Netti, Paolo A., La Commara, Marco, Panzetta, Valeria, and Pugliese, Mariagabriella

Subjects
*HYALURONIC acid, *SERS spectroscopy, *NANOPARTICLES, *LIGHT scattering, *ZETA potential, *RAMAN spectroscopy
Abstract

Nanoparticles (NPs) coated with hyaluronic acid (HA) seem to be increasingly promising for targeted therapy due to HA chemical versatility, which allows them to bind drugs of different natures, and their affinity with the transmembrane receptor CD-44, overexpressed in tumor cells. However, an essential aspect for clinical use of NPs is formulation stability over time. For these reasons, analytical techniques capable of characterizing their physico-chemical properties are needed. In this work, poly(lactide-co-glycolide) (PLGA) NPs with an average diameter of 100–150 nm, coated with a few 10 s of nm of HA, were synthesized. For stability characterization, two complementary investigative techniques were used: Dynamic Light Scattering (DLS) and Surface-Enhanced Raman Scattering (SERS) spectroscopy. The first technique provided information on size, polidispersity index, and zeta-potential, and the second provided a deeper insight on the NP surface chemicals, allowing distinguishing of HA-coated NPs from uncoated ones. Furthermore, in order to estimate formulation stability over time, NPs were measured and monitored for two weeks. SERS results showed a progressive decrease in the signal associated with HA, which, however, is not detectable by the DLS measurements. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Manipulating matter with light

Author

Pesce, Giuseppe, Rusciano, Giulia, Sasso, Antonio, Pesce, Giuseppe, Rusciano, Giulia, and Sasso, Antonio

Subjects
Physics and Astronomy (all)
Published
2019

42. Angiotensin-converting enzyme inhibitors, angiotensin receptor blockers and combined therapy in patients with micro- and macroalbuminuria and other cardiovascular risk factors: a systematic review of randomized controlled trials

Author

Maione, Ausilia, Navaneethan, Sankar D., Graziano, Giusi, Mitchell, Ruth, Johnson, David, Mann, Johannes F.E., Gao, Peggy, Craig, Jonathan C., Tognoni, Giovanni, Perkovic, Vlado, Nicolucci, Antonio, De Cosmo, Salvatore, Sasso, Antonio, Lamacchia, Olga, Cignarelli, Mauro, Maria Manfreda, Valeria, Gentile, Giorgio, and Strippoli, Giovanni F.M.

Published
2011
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44. Enhancement factor statistics of surface enhanced Raman scattering in multiscale heterostructures of nanoparticles.

Author

Gianluigi Zito, Rusciano, Giulia, and Sasso, Antonio

Subjects
RAMAN scattering, NANOPARTICLES, NANOSTRUCTURED materials, SINGLE molecules, MOLECULES
Abstract

Suitable metal nanostructures may induce surface-enhanced Raman scattering (SERS) enhancement factors (EFs) large-enough to reach single-molecule sensitivity. However, the gap hot-spot EF probability density function (PDF) has the character of a long-tail distribution, which dramatically mines the reproducibility of SERS experiments. Herein, we carry out electrodynamic calculations based on a 3D finite element method of two plasmonic nanostructures, combined with Monte Carlo simulations of the EF statistics under different external conditions. We compare the PDF produced by a homodimer of nanoparticles with that provided by a self-similar trimer. We show that the PDF is sensitive to the spatial distribution of near-field enhancement specifically supported by the nanostructure geometry. Breaking the symmetry of the plasmonic system is responsible for inducing particular modulations of the PDF tail resembling a multiple Poisson distribution. We also study the influence that molecular diffusion towards the hottest hot-spot, or selective hot-spot targeting, might have on the EF PDF. Our results quantitatively assess the possibility of designing the response of a SERS substrate so as to contain the intrinsic EF PDF variance and significantly improving, in principle, the reproducibility of SERS experiments. [ABSTRACT FROM AUTHOR]

Published
2016
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45. Purification and characterization of extracellular nanostructures from N.sp. PP1Y: a novel example of Outer Membrane Vesicles

Author

DE LISE, FEDERICA, MENSITIERI, FRANCESCA, RUSCIANO, GIULIA, SASSO, ANTONIO, ZARRELLI, ARMANDO, DI DONATO, ALBERTO, Stefany, Castaldi, Fabrizio Dal Piaz, Viviana, Izzo, De Lise F., Mensitieri F., Castaldi S., Rusciano G., Dal Piaz F., Sasso A., Zarrelli A., Di Donato A., Izzo V., DE LISE, Federica, Mensitieri, Francesca, Stefany, Castaldi, Rusciano, Giulia, Fabrizio Dal, Piaz, Sasso, Antonio, Zarrelli, Armando, DI DONATO, Alberto, and Viviana, Izzo

Subjects
Outer membrane vesicles, Novosphingobium
Published
2017

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