Your search keyword '"Roberto Lo Savio"' showing total 31 results

1. Viral particles imaging through evanescent wave scattering in a total internal reflection laser microscope

Author

Roberto Lo Savio, Sara Piselli, Cinzia Bertelli, Massimo Pizzato, and Adolfo Carloni

Subjects

Microscopy, Scattering, Nanoparticles, Virus, Biosensing, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Optical imaging of objects at the nanometric scale is limited by light diffraction, and for this reason several sub-diffractive optical microscopy techniques have been developed in the last decades. In this article we present an optical laser microscope specifically designed for detection of nano-materials exploiting the Mie scattering between the evanescent wave generated by a laser beam travelling in a transparent substrate through total internal reflection and the nano-objects deposited on the substrate itself. The setup, including the laser source, can be fully integrated inside an optical microscope requiring only a geometric alignment with the substrate thus reducing the complexity and the cost. We also report two possible applications: quantitative detection of Au nanoparticles in the 20-100 nm size range and semi-quantitative detection of virions immobilized on the substrate through bioreceptor / antigen binding, including, but not limited to, SARS-CoV-2. A minimum virus amount of ≈105 in the reaction volume is observed. The results presented here open the route towards unprecedent applications in molecular biology or molecular diagnostics.

Published

2022

2. Identification of the seeding mechanism in the spinodal instability of dewetting liquids

Author

Marine Schott, Luca Repetto, Roberto Lo Savio, Giuseppe Firpo, Elena Angeli, and Ugo Valbusa

Subjects

Biomaterials, Colloid and Surface Chemistry, Seeds, Surface Tension, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Abstract

Spinodal dewetting is one of the basic processes inducing a spontaneous withdrawal of a liquid from a substrate surface. In the accepted theory, thickness fluctuations generated by thermally activated capillary waves are amplified by the competing actions of surface tension and disjoining pressure. Ubiquitous sub-nanometric substrate roughness also produces thickness fluctuations and may play a role analogous but even more efficient in seeding the process.Analytic calculations valid at the early linear stage of the process and simulations extending the study to its whole non-linear development have been performed to compare features and the relative relevance of the two seeding mechanisms.Calculations and simulations have shown that substrate roughness can replace capillary waves in seeding spinodal dewetting. A typically larger amplitude and a steady nature compared to the transitory one of capillary waves allow us to conclude that, contrary to the common view, substrate roughness is the prevailing seed of the spinodal instability. The consequence of our statement is that spinodal dewetting loses most of its stochastic nature and becomes, in principle, a process that can be tuned by engineering substrate roughness.

Published

2023

3. Geometrical Engineering of Giant Optical Dichroism in Rippled MoS2 Nanosheets

Author

Roberto Lo Savio, Andrea Camellini, Mukul Bhatnagar, Alessio Lamperti, Alessandro Molle, Andrea Mazzanti, Carlo Mennucci, Luca Repetto, Christian Martella, Giuseppe Della Valle, Margherita Zavelani-Rossi, and Francesco Buatier de Mongeot

Subjects

Materials science, nanosheets, giant optical dichroism, self&#8208, 2D materials, MoS, 2, nanopatterning, self-assembling, Physics::Optics, Nanotechnology, optical dichroism, Dichroism, MoS2 nanosheets, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Self assembling, assembling, MoS2

Abstract

A cost effective method to tailor the optical response of large-area nanosheets of 2D materials is described. A reduced effective metalayer model is introduced to capture the key-role of the out-of-plane component of the dielectric tensor. Such a model indicates that the optical extinction of 2D materials can be strongly altered by controlling the geometry at the local (i.e., subwavelength) scale. In particular, a giant linear optical dichroism at normal incidence is demonstrated, with major features around the excitonic peaks, that can be tailored by acting on the average curvature and slope of the nanosheets. The approach is experimentally demonstrated in few-layer MoS2 grown by chemical vapor deposition on cm-scale anisotropic nanopatterned substrates prepared by a self-assembling technique, based on defocused ion beam sputtering. Major variations in the photoluminescence spectrum as a function of the average curvature and slope are also revealed. A full-vectorial numerical study beyond the effective metalayer model and comprising strain effects induced by the geometry turns out to be consistent with such a complex scenario. The results demonstrate that the extrinsic geometrical engineering definitely opens viable way to tailor the optical properties and modulate bandgap of low dimensional materials.

Published

2021

4. A baseline assessment of beach macrolitter and microplastics along northeastern Atlantic shores

Author

Brahim Sabour, Christopher D. McQuaid, Ugo Valbusa, Nadja Velez, Gerardo I. Zardi, Roberto Lo Savio, and Katy R. Nicastro

Subjects

0106 biological sciences, Microplastics, Identification, Fishing, 010501 environmental sciences, Aquatic Science, Oceanography, 01 natural sciences, Sediments, Accumulation, Abundance (ecology), Marine debris, Litter, 0105 earth and related environmental sciences, Shore, geography, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, Baseline (sea), Ingestion, Contamination, Pollution, Environmental science, Plastic marine debris

Abstract

Marine litter is widely dispersed throughout coastal environments. Assessing the distribution and accumulation of such contaminants is crucial to understand their environmental impacts. This study presents a baseline for the monitoring of litter and microplastics in intertidal sediments along the Atlantic shores of southern Portugal and Morocco and identifies potential sources of contamination. Although variable, distribution and composition of both litter and microplastics did not follow a latitudinal pattern. Most of the litter had an undifferentiated source. Within the identifiable sources of litter, food packaging, fishing and tobacco were the most abundant, with variable contributions among sites. Over 97% of marine litter retrieved was plastic. Fragments and filaments were the most abundant categories of plastics at sites with the highest and lowest microplastic abundance respectively. Filaments were mainly made of Polypropylene (PP,50%) and Polyethylene terephthalate (PET,29%) while the predominant polymers for fragments were Polyethene (PE, 75%) and PP (25%). Fundacao para a Ciencia e Tecnologia (FCT-MEC, Portugal) [UID/Multi/04326/2019, IF/01413/2014] South African Research Chairs Initiative (SARChI) of the Department of Science and Technology [64801]

Published

2019

5. Plastic ingestion in aquatic-associated bird species in southern Portugal

Author

Gerardo I. Zardi, Katy R. Nicastro, Roberto Lo Savio, Carla R. Lourenço, Christopher D. McQuaid, María Casero, Pedro Madeira, Fábia Azevedo, and Ugo Valbusa

Subjects

0106 biological sciences, Ciconia, Marine debris, Wildlife, 010501 environmental sciences, Aquatic Science, Oceanography, 01 natural sciences, Birds, Eating, Animals, Ecosystem, 0105 earth and related environmental sciences, Waste Products, Portugal, biology, Ciconia ciconia, Ecology, 010604 marine biology & hydrobiology, Aquatic ecosystem, biology.organism_classification, Pollution, Gastrointestinal Contents, Indicator species, Litter, Larus fuscus, Plastics, Water Pollutants, Chemical, Environmental monitoring, Environmental Monitoring

Abstract

Excessive use of plastics in daily life and the inappropriate disposal of plastic products are severely affecting wildlife species in both coastal and aquatic environments. Birds are top-predators, exposed to all threats affecting their environments, making them ideal sentinel organisms for monitoring ecosystems change. We set a baseline assessment of the prevalence of marine plastic litter affecting multi-species populations of aquatic birds in southern Portugal. By examining 160 stomach contents from 8 species of aquatic birds, we show that 22.5% were affected by plastic debris. Plastic was found in Ciconia ciconia, Larus fuscus and L. michahellis. Ciconia ciconia ingested the highest amount (number of items and total mass) of plastic debris. Polydimethylsiloxane (PDMS, silicones) was the most abundant polymer and was recorded only in C. ciconia. Plastic ingestion baseline data are of crucial importance to evaluate changes through time and among regions and to define management and conservation strategies.

Published

2018

6. Nanofluidic Chips for DNA and Nanoparticles Detection and Manipulation

Author

Roberto Lo Savio, Diego Repetto, Ugo Valbusa, Luca Repetto, Denise Pezzuoli, Giuseppe Firpo, Elena Angeli, and Patrizia Guida

Subjects

chemistry.chemical_compound, Materials science, chemistry, Biophysics, Nanoparticle, Nanotechnology, DNA

Published

2019

7. Junction gap breakdown-based fabrication of polydimethylsiloxane ionic rectifiers

Author

Ugo Valbusa, Roberto Lo Savio, Diego Repetto, Luca Repetto, Denise Pezzuoli, Giuseppe Firpo, Elena Angeli, and Patrizia Guida

Subjects

Fabrication, Materials science, Polydimethylsiloxane, business.industry, Mechanical Engineering, Ionic current rectification, Ionic bonding, Funnel-shaped channels, Junction gap breakdown, PDMS, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, chemistry, Mechanics of Materials, Optoelectronics, Electrical and Electronic Engineering, business

Published

2020

8. Gas permeation through rubbery polymer nano-corrugated membranes

Author

Luca Repetto, Patrizia Guida, Giuseppe Firpo, Elena Angeli, Ugo Valbusa, and Roberto Lo Savio

Subjects

chemistry.chemical_classification, Multidisciplinary, Materials science, lcsh:R, lcsh:Medicine, 02 engineering and technology, Surface finish, Permeance, Polymer, Permeation, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Article, 0104 chemical sciences, Membrane, chemistry, Phenomenological model, Surface roughness, lcsh:Q, Composite material, 0210 nano-technology, lcsh:Science, Sheet resistance

Abstract

The purpose of this investigation is to fabricate PDMS membranes with reliable surface roughness in order to reduce the surface resistances and to study its impact on the permeation rate. The permeance of CO2 through PDMS membranes with rough surfaces at nanoscale is studied and compared with the one of membranes with flat surfaces. At very low thickness, rough membranes have a permeance greater than that of membranes with flat surfaces. The enhancement occurs in a regime where the gas transport is sorption desorption surface rate limited, and cannot be explained by the increase in surface area due to the corrugation. The analysis, introducing a phenomenological model in analogy with electrical flow, indicates that nano-corrugation reduces the surface resistance. To test the model, the permeance of N2 is also measured in the same experimental conditions and the influence of surface roughness on permeation rate of CO2, He, CH4 and N2 is studied. The comparison among the gases suggests that the Henry’s coefficient depends on the surface roughness and allows discussing the role of roughness on membrane selectivity.

Published

2018

9. Enhancing miRNAs Capture on Polydimethylsiloxane Surface with Nanostructuration

Author

Patrizia Guida, Laura Pasquardini, V. Vaghi, Ugo Valbusa, Denise Pezzuoli, Luca Repetto, Cristina Potrich, Cecilia Pederzolli, Roberto Lo Savio, Diego Repetto, Lia Vanzetti, Giuseppe Firpo, and Elena Angeli

Subjects

Nanostructure, Materials science, Polydimethylsiloxane, Microfluidics, technology, industry, and agriculture, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Bioengineering, Nanotechnology, chemistry.chemical_compound, Adsorption, chemistry, Ionic strength, microRNA, Biosensor, Volume concentration

Abstract

MicroRNAs (miRNAs) modulate gene expression at post-transcriptional level, while their aberrant presence in circulation correlates with the most common human disorders such as cancer, neuro-degenerative and immune-related diseases. Currently, the pre-concentration of such important bio-markers present at low concentrations in biological fluids, which would make their identification and quantification easier, remains a challenging issue for biosensor-based non-invasive analyses. This paper describes a new nanostructure-based polymeric platform for enhancing adsorption capability of microRNAs, such as the cancer-associated miRNA-21. In this purification strategy, a nano-hole pattern was manufactured by Replica Molding (REM) and fabricated on Polydimethylsiloxane (PDMS) large-areas. Interestingly, the microRNAs adsorption is resulted favoured by this proper topography. In planning to concentrate the patient’s miRNAs used as biomarkers, PDMS surfaces with nanostructures were not further coated with any adhesive molecules to prevent forced surface-biomolecule adhesive regions and evaluate the mere influence of the surface topography and the ionic microenvironment. Both the nanopattern and the solution ionic strength promote adsorption of miRNAs by a sensitive and efficient method, which do not need probe immobilization, enzymatic reaction or further treatments. These studies revealed a two-fold higher fluorescent signal after solid-phase purification protocol compared to standard PDMS obtained by spin-coating. While this paper focuses on nanostructure-miRNA adsorption, the general strategy of trapping miRNAs on nano-hole patterns should be broadly applicable for purification of other miRNAs through microfluidic biosensors and should have basic as well as clinical research applications.

Published

2017

10. Role of substrate morphology in ion induced dewetting of thin solid films

Author

Roberto Lo Savio, Barbara Šetina Batič, Luca Repetto, Giuseppe Firpo, and Ugo Valbusa

Subjects

Spinodal, Materials science, Silicon, Nucleation, General Physics and Astronomy, chemistry.chemical_element, Nanotechnology, Surfaces and Interfaces, General Chemistry, Substrate (electronics), Condensed Matter Physics, Surfaces, Coatings and Films, Ion, Chromium, Chemical engineering, chemistry, Irradiation, Dewetting

Abstract

We investigate the role of the substrate morphology in the dewetting of ultrathin chromium films irradiated with 30 keV Ga ions. Silicon surfaces with different roughness were used as substrates for the films. The results of the irradiation experiments and of related simulations indicate that the chromium films can undergo a dewetting-like process through the two standard channels that show up for liquids, namely the spinodal channel, and the dewetting by heterogeneous nucleation. The two processes are competitive, and the prevailing one can be predicted and selected according to the characteristics of the substrate.

Published

2014

11. Nanofluidic Sensor for Antigen-Antibody Binding Detection

Author

Roberto Lo Savio, Ugo Valbusa, Francesca Ferrera, Diego Repetto, Giuseppe Firpo, Elena Angeli, Denise Pezzuoli, Patrizia Guida, Luca Repetto, and Alessia Cazzulo

Subjects

03 medical and health sciences, 0302 clinical medicine, Chemistry, Biophysics, 030209 endocrinology & metabolism, 030204 cardiovascular system & hematology, Molecular biology, Antigen antibody binding

Published

2018

12. (Invited) Er Doped-Si Nanostructures Coupled with Photonic Crystals for High Enhancement of Light Extraction

Author

Fabio Iacona, Matteo Galli, Roberto Lo Savio, Maria Miritello, A. Irrera, Liam O' Faolain, Giorgia Franzo, F. Priolo, Thomas F. Krauss, and Lucio Claudio Andreani

Subjects

Materials science, business.industry, Nanophotonics, Physics::Optics, Nanotechnology, Purcell effect, law.invention, Slot-waveguide, law, Optical cavity, Optoelectronics, Spontaneous emission, Light emission, Photonics, business, Photonic crystal

Abstract

Silicon nanophotonics is emerging as a new platform for the integration of photonic and electronic devices. Several examples on our recent efforts on monolithic light sources based on silicon nanostructures will be presented and discussed. In particular it will be shown that silicon-oninsulator (SOI) is emerging as an interesting photonic material. A first example of a photonic nanostructure on SOI for the control of light emission has been a “slot” waveguide. It is a slab waveguide having a very thin layer (slot) of low refractive index material (SiO2) embedded within a high refractive index one (Si), the core. It gives rise to a strong enhancement of the electromagnetic field in the slot. Then when Er-doped Si nanoclusters are embedded in the silica thin layer a very strong enhancement of guided photoluminescence is observed. Also the enhancement in the spontaneous emission rate is involved, similar to the Purcell effect of an emitter in an optical cavity, as demonstrated by calculations [1]. Another promising approach is represented by the integration of this singular slot waveguide to a photonic crystal (PhC), that permits to accurately tailor the light propagation and confinement by a periodic modulation of the dielectric constant. Simultaneous inhibition and redistribution of light emission in these systems have permitted to obtain an enhancement of the Er nearnormal emission when the involved transition is in resonance with an appropriate mode of the PhC slab both under optical and electrical excitation. Therefore the realized electroluminescent devices on SOI platform (see an image in Fig.1) based on the coupling of efficient emitters, such as Er-doped Si nanoclusters, and the photonic modes of a proper photonic structure have permitted to obtain very high external efficiency, by making these devices very promising.

Published

2013

13. Simultaneous Electro-Optical Tracking for Nanoparticle Recognition and Counting

Author

Patrizia Guida, Roberto Lo Savio, Ugo Valbusa, Paola Fanzio, Meni Wanunu, Luca Repetto, Giuseppe Firpo, Elena Angeli, and Andrea Volpe

Subjects

Electrophoresis, Optics and Photonics, Materials science, Video Recording, Nanoparticle, Bioengineering, Nanotechnology, polymeric nanochannels, Tracking (particle physics), Article, Diffusion, resistive pulse sensing, Lab-On-A-Chip Devices, General Materials Science, Dimethylpolysiloxanes, nanoparticle diffusion, Single particle tracking, translocation dynamics, Condensed Matter Physics, Chemistry (all), Materials Science (all), Mechanical Engineering, Diffusion (business), Particle Size, Fluorescent Dyes, Range (particle radiation), business.industry, General Chemistry, Equipment Design, Characterization (materials science), Optoelectronics, Particle, Nanoparticles, Particle size, business

Abstract

We present the first detailed experimental observation and analysis of nanoparticle electrophoresis through a nanochannel obtained with synchronous high-bandwidth electrical and camera recordings. Optically determined particle diffusion coefficients agree with values extracted from fitting electrical transport measurements to distributions from 1D Fokker–Planck diffusion-drift theory. This combined tracking strategy enables optical recognition and electrical characterization of nanoparticles in solution, which can have a broad range of applications in biology and materials science.

Published

2015

14. Room temperature electrically pumped silicon nano-light source at telecommunication wavelengths

Author

Roberto Lo Savio, Paolo Cardile, Simone Luca Portalupi, Abdul Shakoor, Liam O'Faolain, Simona Boninelli, Karl Welna, Francesco Priolo, Giorgia Franzò, Matteo Galli, Dario Gerace, and Thomas F. Krauss

Subjects

Silicon photonics, Materials science, silicon photonics, Silicon, optically active defects, business.industry, Hybrid silicon laser, chemistry.chemical_element, Plasma, Purcell effect, Electroluminescence, photonic crystal cavity, Wavelength, Optics, chemistry, Optoelectronics, Emission spectrum, business, silicon light emission

Abstract

We demonstrate electrically pumped silicon nano-light source at room temperature, having very narrow emission line (

Published

2013

15. Light generation in silicon photonic crystal cavities

Author

Matteo Galli, Simone Luca Portalupi, Lucio Claudio Andreani, Dario Gerace, Roberto Lo Savio, Francesco Priolo, Thomas F. Krauss, Alessia Irrera, Karl Welna, Liam O'Faolain, Giorgia Franzò, and Abdul Shakoor

Subjects

Silicon photonics, Materials science, Silicon, business.industry, Hybrid silicon laser, Nanophotonics, Physics::Optics, chemistry.chemical_element, Nonlinear optics, Optics, chemistry, High harmonic generation, Optoelectronics, Crystalline silicon, business, Photonic crystal

Abstract

Far-field optimized photonic crystal nanocavities are used to strongly increase light generation from crystalline silicon. Low-power continuous-wave harmonic generation as well as efficient room temperature light-emission from optically-active defects are demonstrated in these devices.

Published

2011

16. Subbandgap photoluminescence of Si photonic crystal nanocavity at room temperature

Author

Roberto Lo Savio, Giorgio Guizzetti, Thomas F. Krauss, Dario Gerace, Lucio Claudio Andreani, Francesco Priolo, Giorgia Franzò, Simone Luca Portalupi, Karl Welna, Liam O'Faolain, Abdul Shakoor, Alessia Irrera, and Matteo Galli

Subjects

Photoluminescence, Materials science, Hydrogen, Silicon, business.industry, chemistry.chemical_element, Plasma, Optically active, Crystallographic defect, chemistry, Optoelectronics, business, Photonic crystal, Photonic crystal cavity

Abstract

Using a photonic crystal cavity and a hydrogen plasma treatment, we enhance the photoluminescence (PL) from optically active defects in silicon by a factor of 3000 compared to the as-bought material at room temperature.

Published

2011

17. Electrical and optical properties of ion implanted SOI-based photonic crystals

Author

Roberto Lo Savio, Paolo Cardile, Francesco Priolo, Liam O' Faolain, Matteo Galli, Giorgia Franzò, and Thomas F. Krauss

Subjects

Materials science, Filling factor, business.industry, Doping, Physics::Optics, Conductivity, Ion, Ion implantation, Electrical resistivity and conductivity, Condensed Matter::Superconductivity, Q factor, Optoelectronics, Condensed Matter::Strongly Correlated Electrons, business, Photonic crystal

Abstract

We investigate the electrical properties of Silicon-on-Insulator photonic crystals as a function of doping level and air filling factor. A very interesting trade-off between conductivity and optical losses in L3 cavities is also found.

Published

2011

18. Photoluminescence spectroscopy of silicon photonic crystal nanocavities

Author

Abdul Shakoor, Roberto Lo Savio, Matteo Galli, Francesco Priolo, Alessia Irrera, Liam O'Faolain, Dario Gerace, Giorgia Franzò, Simone Luca Portalupi, Lucio Claudio Andreani, and Thomas F. Krauss

Subjects

Materials science, Photoluminescence, Silicon photonics, Silicon, business.industry, Doping, Silicon on insulator, chemistry.chemical_element, Ion implantation, chemistry, Optoelectronics, Photonics, business, Photonic crystal

Abstract

We demonstrate the possibility to characterize Si photonic crystal (PhC) nanocavity modes made on Silicon on insulator (SOI), and operating at telecom wavelengths, through photoluminescence (PL) spectroscopy at room temperature. In fact, a wide PL band between 1200 and 1600 nm is observed under optical pumping when proper material processing is performed after the nanocavities fabrication, namely Ar/H 2 plasma treatment and Si implantation. PL emission is originated through the carrier recombination occurring at defect states formed in silicon after such treatments. We study photonic modes of L 3 PhC nanocavities, with a proper geometry optimization in order to obtain high quality (Q) factors [1] and improved coupling to the far field [2].

Published

2011

19. Energy transfer and enhanced 1.54 ?m emission in erbium-ytterbium disilicate thin films

Author

Paolo Cardile, Roberto Lo Savio, Maria Miritello, and Francesco Priolo

Subjects

Ytterbium, Optical amplifier, education.field_of_study, Materials science, Photoluminescence, business.industry, Population, Analytical chemistry, chemistry.chemical_element, Nanotechnology, Atomic and Molecular Physics, and Optics, Erbium, Optics, chemistry, Fiber laser, Excited state, Thin film, education, business

Abstract

α-(Yb1-xErx)2Si2O7 thin films on Si substrates were synthesized by magnetron co-sputtering. The optical emission from Er3+ ions has been extensively investigated, evidencing the very efficient role of Yb-Er coupling. The energy-transfer coefficient was evaluated for an extended range of Er content (between 0.2 and 16.5 at.%) reaching a maximum value of 2 × 10⁻¹⁶ cm⁻³s⁻¹. The highest photoluminescence emission at 1535 nm is obtained as a result of the best compromise between the number of Yb donors (16.4 at.%) and Er acceptors (1.6 at.%), for which a high population of the first excited state is reached. These results are very promising for the realization of 1.54 μm optical amplifiers on a Si platform.

Published

2011

20. Enhanced Light Emission from Silicon using Photonic Crystal Nanocavities

Author

Simone Luca Portalupi, Alessia Irrera, Francesco Priolo, Abdul Shakoor, Liam O'Faolain, Matteo Galli, Giorgia Franzò, Karl Welna, Roberto Lo Savio, Lucio Claudio Andreani, Dario Gerace, Giorgio Guizzetti, and Thomas F. Krauss

Subjects

Photoluminescence, Materials science, Silicon, business.industry, chemistry.chemical_element, Light scattering, chemistry, Q factor, Electric field, Optoelectronics, Light emission, business, Thermal quenching, Photonic crystal

Abstract

Using Photonic crystal nanocavities, we first dramatically enhance third harmonic generation from silicon. Then, by virtue of a strong Purcell factor, we significantly increase defect state photoluminescence and greatly suppress thermal quenching.

Published

2011

21. Electrical conduction and optical properties of doped silicon-on-insulator photonic crystals

Author

Roberto Lo Savio, Francesco Priolo, Paolo Cardile, Giorgia Franzò, Liam O' Faolain, Matteo Galli, and Thomas F. Krauss

Subjects

Materials science, Physics and Astronomy (miscellaneous), business.industry, Filling factor, Superlattice, Doping, NANOCAVITY, Physics::Optics, Silicon on insulator, Depletion region, Electrical resistivity and conductivity, Condensed Matter::Superconductivity, Q factor, QUANTUM-DOT, LOW-POWER, Optoelectronics, Condensed Matter::Strongly Correlated Electrons, business, Photonic crystal

Abstract

We investigate the electrical properties of silicon-on-insulator (SOI) photonic crystals as a function of both doping level and air filling factor. The resistance trends can be clearly explained by the presence of a depletion region around the sidewalls of the holes that is caused by band pinning at the surface. To understand the trade-off between the carrier transport and the optical losses due to free electrons in the doped SOI, we also measured the resonant modes of L3 photonic crystal nanocavities and found that surprisingly high doping levels, up to 10(18)/cm(3), are acceptable for practical devices with Q factors as high as 4 x 10(4).

Published

2011

22. Er-based materials for Si microphotonics

Author

Roberto Lo Savio, Maria Miritello, Alessia Irrera, Giorgia Franzò, Emanuele Francesco Pecora, Francesco Priolo, and Fabio Iacona

Subjects

Materials science, Photoluminescence, Silicon, business.industry, Organic Chemistry, chemistry.chemical_element, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Nanoclusters, Ion, Inorganic Chemistry, Erbium, Condensed Matter::Materials Science, chemistry, Excited state, Optoelectronics, Quantum efficiency, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, Luminescence, business, Spectroscopy

Abstract

We have investigated the role of the Si excess on the photoluminescence properties of Er-doped Si nanoclusters (Si nc). We demonstrate that the Si excess has two competing roles: when agglomerated to form Si nc it enhances the Er excitation efficiency but it also introduces new non-radiative decay channels. When Er is excited through an energy transfer from Si nc, the beneficial effect on the enhanced excitation efficiency prevails and the Er emission increases with increasing Si content. The luminescence quenching processes limiting quantum efficiency in Er-doped Si nc light emitting devices are investigated and identified. It is found that carrier injection, while needed to excite Er ions through electron–hole recombination, at the same time produces an efficient non-radiative Auger de-excitation with trapped carriers. The maximum excited Er fraction in this system is only of the order of percent. In order to increase the concentration of excited Er ions, a different approach based on Er silicate thin films has been explored. Under proper annealing conditions, an efficient luminescence at 1535 nm is found and all the Er ions in the material are optically active. The possibility to efficiently excite Er ions also through electron–hole mediated processes is demonstrated in nanometer-scale Er–Si–O/Si multilayers.

Published

2009

23. Synthesis and luminescence properties of erbium silicate thin films

Author

Roberto Lo Savio, Maria Miritello, Francesco Priolo, Fabio Iacona, Corrado Bongiorno, and Giorgia Franzò

Subjects

Materials science, Photoluminescence, Annealing (metallurgy), business.industry, Mechanical Engineering, Inorganic chemistry, chemistry.chemical_element, Sputter deposition, Condensed Matter Physics, Silicate, CRYSTALLINE FILMS, Erbium, chemistry.chemical_compound, chemistry, 1.54 MU-M, Mechanics of Materials, Sputtering, Optoelectronics, General Materials Science, Thin film, AL2O3 WAVE-GUIDES, SI NANOCRYSTALS, business, Luminescence, ENERGY-TRANSFER

Abstract

We have studied the structure and the room temperature luminescence of erbium silicate thin films deposited by rf magnetron sputtering. Films deposited on silicon oxide layers are characterized by good structural properties and excellent stability. The optical properties of these films are strongly improved by rapid thermal annealing processes performed in the range of temperature 800-1250 degrees C. In fact through the reduction of the defect density of the material, a very efficient room temperature photoluminescence at 1535 nm is obtained. We have also investigated the influence of the annealing ambient, by finding that treatments in 02 atmosphere are significantly more efficient in improving the optical properties of the material with respect to processes in N-2. Upconversion effects become effective only when erbium silicate is excited with high pump powers. The evidence that all Er atoms (about 10(22) cm(-3)) in erbium silicate films are optically active suggests interesting perspectives for optoelectronic applications of this material. (C) 2007 Elsevier B.V. All rights reserved.

Published

2008

24. Si:O Alloys for Photovoltaics: Optical and Electrical Properties from Quantum Dots to Thin Films

Author

Salvo Mirabella, Giuliana Di Martino, Isodiana Crupi, Santo Gibilisco, Maria Miritello, Roberto Lo Savio, Francesca Simone, Antonio Terrasi, and Francesco Priolo

Abstract

not Available.

Published

2010

25. Influence of the matrix properties on the performances of Er-doped Si nanoclusters light emitting devices

Author

Roberto Lo Savio, Maria Eloisa Castagna, Alessia Irrera, Giorgia Franzò, Maria Miritello, Salvatore Coffa, Fabio Iacona, and Francesco Priolo

Subjects

Materials science, Silicon, business.industry, Doping, SILICON NANOCRYSTALS, ENERGY-TRANSFER, ELECTROLUMINESCENCE, PHOTOLUMINESCENCE, General Physics and Astronomy, chemistry.chemical_element, Chemical vapor deposition, Sputter deposition, Electroluminescence, Nanoclusters, Surface coating, chemistry, Plasma-enhanced chemical vapor deposition, Optoelectronics, business

Abstract

We investigated the properties of light emitting devices whose active layer consists of Er-doped Si nanoclusters (nc) generated by thermal annealing of Er-doped SiOx layers prepared by magnetron cosputtering. Differently from a widely used technique such as plasma enhanced chemical vapor deposition, sputtering allows to synthesize Er-doped Si nc embedded in an almost stoichiometric oxide matrix, so as to deeply influence the electroluminescence properties of the devices. Relevant results include the need for an unexpected low Si excess for optimizing the device efficiency and, above all, the strong reduction of the influence of Auger de-excitation, which represents the main nonradiative path which limits the performances of such devices and their application in silicon nanophotonics.

Published

2010

26. Modification of erbium radiative lifetime in planar silicon slot waveguides

Author

Roberto Lo Savio, Maria Miritello, Celestino Creatore, Lucio Claudio Andreani, and Francesco Priolo

Subjects

Materials science, Silicon photonics, Physics and Astronomy (miscellaneous), Silicon, business.industry, Hybrid silicon laser, Physics::Optics, chemistry.chemical_element, engineering.material, Slot-waveguide, Erbium, Condensed Matter::Materials Science, Planar, Polycrystalline silicon, chemistry, Radiative transfer, engineering, Optoelectronics, business

Abstract

The authors report a systematic study of the lifetime of the 1.54 μm transition of Er3+-doped SiO2 thin film as active material in planar slot waveguides in polycrystalline silicon. The lifetime shows a strong reduction when compared with values measured in three other configurations. The experimental results, combined with a rigorous quantum-electrodynamical formalism, are consistent with a sizable increase in both the radiative and nonradiative decay rates of Er3+ transition in slot waveguide. The radiative efficiency is only slightly reduced with respect to Er3+ in the bulk oxide, this result being important for future realization of Si-compatible active optical devices.

Published

2009

27. Simultaneous Electro-Optical Tracking for NanoparticleRecognition and Counting.

Author

Elena Angeli, Andrea Volpe, Paola Fanzio, Luca Repetto, Giuseppe Firpo, Patrizia Guida, Roberto Lo Savio, Meni Wanunu, and Ugo Valbusa

Published

2015

28. Efficient Light Emission from Erbium Doped Si Nanoclusters and Erbium Silicates

Author

Maria Miritello, Roberto Lo Savio, Alessia Irrera, Fabio Iacona, Giorgia Franzò, Matteo Galli, Michele Belotti, Lucio Andreani, and Francesco Priolo

Abstract

not Available.

Published

2008

29. Junction gap breakdown-based fabrication of polydimethylsiloxane ionic rectifiers.

Author

Elena Angeli, Denise Pezzuoli, Diego Repetto, Patrizia Guida, Giuseppe Firpo, Roberto Lo Savio, Luca Repetto, and Ugo Valbusa

Subjects

IONIC solutions, NANOPOROUS materials, SEMICONDUCTOR materials, IONIC strength, IONIC structure, POLYDIMETHYLSILOXANE, NANOSTRUCTURES

Abstract

Polymeric nanofluidic structures are good candidates for boosting the exploitation of the powerful functionalities offered by nanofluidics in many fields. The advantages offered by polymeric materials are mainly related to their low cost and ease of manufacture, compared to semiconductor industry-derived materials. When the size of functional structures is shrunk from micro to nanoscale, the limits of these materials become evident. In particular, polydimethylsiloxane (PDMS) nanostructures (nanochannels or nanoslits) experience problems of collapse during the sealing process. In this work, we propose a junction gap breakdown-based approach to fabricate polymeric nanoporous networks in situ, i.e. at the tip of an asymmetric microfunnel made of commercial PDMS. We show that these micro/nanofluidic structures have ionic current rectification characteristics, even when filled with high ionic strength solutions (1 M KCl). Moreover, analyzing the electro-kinetic transport properties of these PDMS micro/nanostructures filled with fluorescent solutions, we observed at negative bias an intra-funnel accumulation. This phenomenon results much stronger for low ionic strength solutions. As these devices combine ease of fabrication, with interesting electrical properties, they are good candidates as functional structures in many fields, spanning from biomedical applications, where they can support the development of high-sensitivity sensors, to desalination applications and ionic circuits. [ABSTRACT FROM AUTHOR]

Published

2020

30. Erbium doped materials for a Si-based microphotonics

Author

Priolo, F., Franzò, G., Iacona, F., Irrera, A., Roberto Lo Savio, Miritello, M., and Pecora, E.

31. Enhancing optical functionalities of silicon with photonic crystal nanocavities

Author

Paolo Cardile, Karl Welna, Abdul Shakoor, Liam O'Faolain, Alessia Irrera, Simone Luca Portalupi, Matteo Galli, Francesco Priolo, Dario Gerace, Roberto Lo Savio, Thomas F. Krauss, and Lucio Claudio Andreani

Subjects

Materials science, Silicon photonics, Silicon, business.industry, chemistry.chemical_element, Nonlinear optical, symbols.namesake, chemistry, symbols, Optoelectronics, business, Realization (systems), Nanoscopic scale, Raman scattering, Photonic crystal, Free-space optical communication

Abstract

We show that far-field optimized PhC nanocavities can greatly enhance linear and nonlinear optical effects in silicon, thus providing a unique platform for the realization of nanoscale devices with advanced optical functionalities at room temperature.