Your search keyword '"Avino, P"' showing total 1,147 results

1. Brownian motion of a single microparticle partially engulfed by a giant lipid vesicle

Author

Marque, Clément, D'Avino, Gaetano, Larobina, Domenico, Michel, Aude, Abou-Hassan, Ali, and Stocco, Antonio

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

The study of interactions between biomimetic membranes and micron-sized particles serves as a fundamental cornerstone for understanding various biological processes. Here, we aim at controlling the engulfment of microparticles in absence of any externally applied force. We investigate systems involving particles and lipid vesicles, where interactions are primarily mediated by electrostatics. Our attention is directed towards dissipative phenomena at the micron and nano scales occurring between a vesicle membrane and a particle, highlighting the influence of the particle penetration depth and the impact of substructures on particle friction. Our work is complemented by hydrodynamic simulations considering the impacts of the shape of the membrane wrapping the particle and the water gap separating the lipid bilayer membrane and the particle on the translational particle drag. Lastly, we explore a system of aqueous microdroplets in oil, stabilized by a single lipid layer and compare the friction experienced by a particle in contact with this monolayer to the friction observed for particles wrapped by lipid bilayers. Surprisingly, the particle drag is higher on the lipid monolayer than the bilayer, which can be explained by introducing a drag contribution due to the partial wetting dynamics of the particle at the monolayer interface.

Published

2024

2. From many-body ab initio to effective excitonic models: a versatile mapping approach including environmental embedding effects

Author

Rodríguez-Mayorga, Mauricio, Blase, Xavier, Duchemin, Ivan, and D'Avino, Gabriele

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

We present an original multi-state projective diabatization scheme based on the Green's function formalism that allows the systematic mapping of many-body ab initio calculations onto effective excitonic models. This method inherits the ability of the Bethe-Salpeter equation to describe Frenkel molecular excitons and intermolecular charge-transfer states equally well, as well as the possibility for an effective description of environmental effects in a QM/MM framework. The latter is found to be a crucial element in order to obtain accurate model parameters for condensed phases and to ensure their transferability to excitonic models for extended systems. The method is presented through a series of examples illustrating its quality, robustness, and internal consistency.

Published

2024

3. Zeptosecond-scale single-photon gyroscope

Author

Sgobba, Fabrizio, Triggiani, Danilo, Tamma, Vincenzo, De Natale, Paolo, Gagliardi, Gianluca, Avino, Saverio, and Amato, Luigi Santamaria

Subjects

Quantum Physics

Abstract

This paper presents an all-fiber telecom-range optical gyroscope employing a spontaneous parametric down conversion crystal to produce ultra-low intensity thermal light by tracing-out one of the heralded photons. The prototype exhibits a detection limit on photon delay measurements of $249$ zs over a $72$ s averaging time and 26 zs in differential delay measurements at $t=10^4$ s averaging. The detection scheme proves to be the most resource-efficient possible, saturating $>99.5\%$ of the Cram\'er-Rao bound. These results are groundbreaking in the context of low-photon regime quantum metrology, paving the way to novel experimental configurations to bridge quantum optics with special or general relativity., Comment: 10 pages, 7 figures

Published

2024

4. Microfluidic pressure-driven flow of a pair of deformable particles suspended in Newtonian and viscoelastic media: A numerical study

Author

Esposito, Giancarlo, D'Avino, Gaetano, and Villone, Massimiliano Maria

Subjects

Physics - Fluid Dynamics, Condensed Matter - Soft Condensed Matter

Abstract

The manipulation and control of microparticles through non-intrusive methods is pivotal in biomedical applications such as cell sorting and cell focusing. Although several experimental and numerical studies have been dedicated to single suspended particles or clusters of rigid spheres, analogous cases with deformable particles have not been as thoroughly studied, especially when the suspending liquid exhibits relevant viscoelastic properties. With the goal of expanding the current knowledge concerning these systems, we perform a computational study on the hydrodynamic interactions between two neutrally buoyant initially spherical elastic particles suspended in Newtonian and shear-thinning viscoelastic matrices subjected to pressure-driven flow in a cylindrical microchannel. Due to the well-known focusing mechanism induced by both particle deformability and fluid elasticity, the two particles are assumed to flow at the axis of the tube. The rheological behavior of the viscoelastic continuous phase is modelled via the Giesekus constitutive equation, whereas the particles are assumed to behave as Neo-Hookean solids. The problem is tackled by employing a mixed finite element method. The effects of particle deformability, fluid elasticity, confinement ratio, and initial interparticle separation distance on the pair dynamics are investigated. The main outcome of this study is a quantitative indication of the flow conditions and spatial configurations (initial distances) under which the particles will spontaneously form organized structures. Such results are helpful to design efficient microfluidic devices with the aim of promoting particle ordering., Comment: 28 pages including references, 17 figures. Article accepted for publication in Physics of Fluids

Published

2023

5. On the Role of Charge Transfer Excitations in Non-Fullerene Acceptors for Organic Photovoltaics

Author

Giannini, Samuele, Sowood, Daniel J. C., Cerda, Jesus, Frederix, Siebe, Grune, Jeannine, Londi, Giacomo, Marsh, Thomas, Ghosh, Pratyush, Duchemin, Ivan, Greenham, Neil C., Vandewal, Koen, D'Avino, Gabriele, Gillett, Alexander J., and Beljonne, David

Subjects

Condensed Matter - Materials Science

Abstract

Through the development of new non-fullerene electron acceptor (NFA) materials, such as Y6 and its molecular derivatives, the power conversion efficiencies of organic photovoltaics (OPVs) have now exceeded 19%. However, despite this rapid progress, our fundamental understanding of the unique optical and electronic properties of these Y-series NFAs is lacking, and this currently limits progress in material design. In this work, we provide a detailed computational-experimental characterisation of the archetypal NFA, Y6. To explain the significant broadening and red shift of the absorption spectrum observed when moving from the solution phase to the solid state, we first rule out more typical causes, such as J-aggregation. Instead, by considering the role of charge transfer (CT) excitations and their mixing with Frenkel exciton (FE) states, we can computationally reproduce the experimental absorption spectra of Y6 with excellent accuracy. Using transient absorption spectroscopy, we provide evidence for this dense manifold of FE-CT hybrid electronic excitations in Y6 through the prominent sub-picosecond relaxation events following supra band gap excitation. Furthermore, through sub band gap excitation, we also find states with polaronic character in Y6 that are in a dynamic equilibrium with the FE-CT hybrid states. Magnetic resonance spectroscopies reveal that these polaronic states are polaron pairs, most likely located on neighbouring Y6 molecules, not free charge carriers, as has been previously suggested. Thus, this new understanding of how the solid-state packing motif directly controls the optical and electronic properties of Y-series NFAs opens the door to intelligently design NFA materials to further increase OPV performance., Comment: 31 pages, 7 figures

Published

2023

6. Diversity of plant pollen sources, microbial communities, and phenolic compounds present in bee pollen and bee bread

Author

Iorizzo, Massimo, Albanese, Gianluca, Letizia, Francesco, Testa, Bruno, Di Criscio, Dalila, Petrarca, Sonia, Di Martino, Catello, Ganassi, Sonia, Avino, Pasquale, Pannella, Gianfranco, Aturki, Zeineb, Tedino, Cosimo, and De Cristofaro, Antonio

Published

2024

7. Atmospheric bulk depositions: state-of-the-art and European legislative framework with focus on Italy

Author

Ianiri, Giuseppe, Settimo, Gaetano, and Avino, Pasquale

Published

2024

8. Health challenges of rangers—a planetary health workforce

Author

Rerolle, Francois, Singh, Rohit, Mascari, Thomas, Aisha, Hamera, Avino, Felipe Spina, Gajardo, Osvaldo Barassi, Urh, Melina, Mcvey, Drew, Belecky, Mike, and Moreto, William

Abstract

Rangers safeguard the balance between humans and nature by protecting and managing biodiversity and natural resources. The challenging working conditions that rangers face make them vulnerable to wildlife attacks and exposure to zoonotic and vector-borne diseases. Despite all of these work-related challenges and threats to their health, a vast majority of rangers lack access to adequate medical treatment facilities. This research has used data from the one of the largest and most comprehensive surveys of rangers across multiple countries, collected as part of the Global Ranger Perception Survey, to examine the relationship between the precarious working conditions of rangers and their health outcomes. By comparing data from the 2020 World Malaria Report, our study highlights the severe malaria burden carried by rangers around the world. Malaria prevalence in rangers working in Central Africa, East Africa, and South America was estimated to be four times higher than in the general population. The results of this study are valuable because they show that rangers are a vulnerable, high-risk population of professionals and their working conditions are highly associated with their respective health outcomes. The research also makes it imperative that improving working conditions is essential for maintaining a professional ranger workforce that protects the planet’s natural areas and biodiversity.

Published

2024

9. Size-segregated content of heavy metals and polycyclic aromatic hydrocarbons in airborne particles emitted by indoor sources

Author

E. Caracci, A. Iannone, F. Carriera, I. Notardonato, S. Pili, A. Murru, P. Avino, M. Campagna, G. Buonanno, and Luca Stabile

Subjects

Medicine, Science

Abstract

Abstract Indoor air quality is negatively affected by the emission of different combustion sources releasing airborne particles and related particle-bound toxic compounds (e.g., heavy metals and polycyclic aromatic hydrocarbons). To date, very few studies focused on the chemical characterization of the airborne particles emitted by indoor sources were carried out; moreover, no data on their size-resolved chemical compositions are available. In the present study, an experimental analysis aimed at determining the size-segregated content of heavy metals and polycyclic aromatic hydrocarbons in airborne particles (including sub-micrometric ones) emitted by widely-used indoor combustion sources (i.e., incenses, candles, mosquito-coils, and cooking activities) was carried out. To this purpose, airborne particles were collected through an electric low-pressure impactor and were post-analyzed by means of chromatography–mass spectrometry and atomic emission spectrometry techniques. Results of the analyses showed that the chemical composition of the emitted particles is not invariant to the particle size, indeed, an important contribution of sub-micrometric particle range to the total mass of chemical compounds emitted by the sources was noticed. These findings also demonstrated that significant underestimations of particle-bound compounds depositing in the lungs could occur if size-dependent compositions are not adopted.

Published

2024

10. Towards a 6G embedding sustainability

Author

Selva, Esteban, Gati, Azeddine, Hamon, Marie- Hélène, Calochira, Giorgio, Avino, Giuseppe, Khorsandi, Bahare Masood, Wunderer, Stefan, Wänstedt, Stefan, Bergmark, Pernilla, Bories, Serge, Svensson, Tommy, and Matinmikko-Blue, Marja

Subjects

Computer Science - Networking and Internet Architecture

Abstract

From its conception, 6G is being designed with a particular focus on sustainability. The general philosophy of the H2020 Hexa-X project work on sustainability in 6G is based on two principles: to reduce direct negative life cycle impacts of 6G systems as much as possible (Sustainable 6G) and to analyze use cases that maximize positive environmental, social, and economic effects in other sectors of society (6G for Sustainability or its enablement effect). To apply this philosophy, Hexa-X is designing 6G with three sustainability objectives in mind: to enable the reduction of emissions in 6G-powered sectors of society, to reduce the total cost of ownership and to improve energy efficiency. This paper describes these objectives, their associated KPIs and quantitative targets, and the levers to reach them. Furthermore, to maximize the positive effects of 6G through the enablement effect, a link between 6G and the United Nations' Sustainable Development Goals (UN SDGs) framework is proposed and illustrated by Hexa-X use case families., Comment: IEEE ICC 2023 Second International Workshop on Green and Sustainable Networking (GreenNet), May 2023, Rome, Italy

Published

2023

11. Electronic Polarization Effects in Core-Level Spectroscopy

Author

Mukatayev, Iskander, D'Avino, Gabriele, Sklenard, Benoit, Olevano, Valerio, and Li, Jing

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Atomic Physics, Physics - Computational Physics

Abstract

In X-ray photoelectron spectroscopy (XPS), the injected hole interacts with the electronic polarization cloud induced by the hole itself, ultimately resulting in a lower binding energy. Such polarization effect can shift the core-level energy by more than 1 eV, as shown here by embedded many-body perturbation theory for the paradigmatic case of noble gas clusters made of Ar, Kr, or Xe. The polarization energy is almost identical for the different core-orbitals of a given atom, but it strongly depends on the position of the ionized atom in the cluster. An analytical formula is derived from classical continuum electrostatics, providing an effective and accurate description of polarization effects, which permits to achieve an excellent agreement with available experiments on noble gas clusters at a modest computational cost. Electronic polarization provides a crucial contribution to core levels absolute energies and chemical shifts., Comment: 6 pages, 3 figures

Published

2023

12. Firearm injury to the left buttock with uterus penetrating trauma

Author

Filomena Pezzullo, MD, Valeria Marrone, MD, Rosita Comune, MD, Carlo Liguori, MD, Alessandro Borrelli, MD, Roberta Abete, MD, Stefano Giusto Picchi, MD, Nicola Rosano, MD, Raffaele D'avino, MD, Francesca Iacobellis, MD, Riccardo Ferrari, MD, Michele Tonerini, MD, and Stefania Tamburrini, MD

Subjects

Gunshot, Pelvic trauma, Nongravidic uterus, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

A multispecialty trauma team must provide care for pelvic gunshot wounds (PGW) due to the high risk of associated morbidity and mortality, the high density of organs that might be wounded within the pelvis, and the potential consequences of these complicated injuries. We present a case of a 59-year-old woman hemodynamically stable with firearm injury to the left buttock. CT examination showed free air in the peritoneal cavity and in the retroperitoneum and a focal contrast extravasation within the uterine fundus. The patient underwent urgent laparotomy that revealed triple bowel perforation (sigmoid colon, medium rectum, ileum) and a laceration of the posterior and anterior uterine wall at level of the cervix with no signs of active bleeding. The bullet was lodged above the peritoneal reflection, in the right pelvis, and it was removed, and handed over to the judicial authority. The perforated bowel segments were resected with Hartmann's procedure and ileal anastomosis. The uterine laceration was repaired. Although all the viscera and the structures along the trajectory can be harmed, pelvic gunshot wounds have the potential to inflict serious injury. Nongravid uterine traumas are a unique occurrence, and proper care requires an understanding of lesion grading. Finding the gynecological lesion in female patients is essential to receiving the best care and protecting the reproductive system.

Published

2024

13. Horse welfare in semi-extensive system: establishing a welfare protocol and comparing pasture and stable farming systems

Author

Federica Raspa, Emanuela Valle, Laura Ozella, Domenico Bergero, Martina Tarantola, Alessandro Necci, Lorenzo Bertocchi, Nicoletta D’Avino, Marta Paniccià, Pasquale De Palo, Eleonora Nannoni, Giovanna Martelli, and Claudio Forte

Subjects

welfare, horse, semi-extensive farming, pasture, stable, Animal culture, SF1-1100

Abstract

There is not a welfare protocol for horses reared for meat production in semi-extensive systems. The aims of the study were to develop a specific welfare protocol suitable to be applied at pasture and on stable; and to evaluate whether the welfare items were influenced by the farming system (pasture vs stable). 52 non-animal-based measures (N-ABMs) and 14 animal-based measures (ABMs), classified into 6 thematic areas (training, feeding, facilities, ABMs, biosecurity, health management) were selected by a focus group. The protocol was applied on a total of 429 Catria horses located across 26 pastures during the warm seasons and on 7 stables during the cold seasons. Differences obtained within each horse-unit were calculated by using the diversity index (VARNC) and the distance from the ideal (dfi) index. Chi-square test was used for comparing the relative frequencies (%) of the answers (pasture vs stable). Most the welfare items were classified as adequate in both pasture and stable, yet differences were found within ‘training’ (p = 0.02) and ‘feeding’ (p

Published

2024

14. Size-segregated content of heavy metals and polycyclic aromatic hydrocarbons in airborne particles emitted by indoor sources

Author

Caracci, E., Iannone, A., Carriera, F., Notardonato, I., Pili, S., Murru, A., Avino, P., Campagna, M., Buonanno, G., and Stabile, Luca

Published

2024

15. Intersocietal survey on real-world asthma management in Italian children

Author

Tosca, Maria Angela, D’Avino, Antonio, Di Mauro, Giuseppe, Marseglia, Gian Luigi, Miraglia del Giudice, Michele, and Ciprandi, Giorgio

Published

2024

16. Deterioration-associated microbiome of a modern photographic artwork: the case of Skull and Crossbones by Robert Mapplethorpe

Author

Petraretti, Mariagioia, De Natale, Antonino, Del Mondo, Angelo, Troisi, Romualdo, De Castro, Olga, Mormile, Nicolina, Avino, Mariano, Tortino, Gennaro, Graziano, Giuseppe Oreste, Vergara, Alessandro, and Pollio, Antonino

Published

2024

17. Author Correction: Disentangling the multiorbital contributions of excitons by photoemission exciton tomography

Author

Bennecke, Wiebke, Windischbacher, Andreas, Schmitt, David, Bange, Jan Philipp, Hemm, Ralf, Kern, Christian S., D’Avino, Gabriele, Blase, Xavier, Steil, Daniel, Steil, Sabine, Aeschlimann, Martin, Stadtmüller, Benjamin, Reutzel, Marcel, Puschnig, Peter, Jansen, G. S. Matthijs, and Mathias, Stefan

Published

2024

18. Disentangling the multiorbital contributions of excitons by photoemission exciton tomography

Author

Bennecke, Wiebke, Windischbacher, Andreas, Schmitt, David, Bange, Jan Philipp, Hemm, Ralf, Kern, Christian S., D’Avino, Gabriele, Blase, Xavier, Steil, Daniel, Steil, Sabine, Aeschlimann, Martin, Stadtmüller, Benjamin, Reutzel, Marcel, Puschnig, Peter, Jansen, G. S. Matthijs, and Mathias, Stefan

Published

2024

19. CT prognostic signs of postoperative complications in emergency surgery for acute obstructive colonic cancer

Author

Pezzullo, Filomena, Comune, Rosita, D’Avino, Raffaelle, Mandato, Ylenia, Liguori, Carlo, Lassandro, Giulia, Tamburro, Fabio, Galluzzo, Michele, Scaglione, Mariano, and Tamburrini, Stefania

Published

2024

20. In-Situ FTIR and Laser Induced Fluorescence RONS Characterization of Atmospheric Pressure Nanosecond-Pulsed Surface DBD Plasma for Indirect Treatments of E. Coli

Author

Ibba, Lorenzo, Agus, Rita, Avino, Fabio, Furno, Ivo, and Ambrico, Paolo F.

Published

2024

21. Multiorbital exciton formation in an organic semiconductor

Author

Bennecke, Wiebke, Windischbacher, Andreas, Schmitt, David, Bange, Jan Philipp, Hemm, Ralf, Kern, Christian S., D`Avino, Gabriele, Blase, Xavier, Steil, Daniel, Steil, Sabine, Aeschlimann, Martin, Stadtmueller, Benjamin, Reutzel, Marcel, Puschnig, Peter, Jansen, G. S. Matthijs, and Mathias, Stefan

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Harnessing the optoelectronic response of organic semiconductors requires a thorough understanding of the fundamental light-matter interaction that is dominated by the excitation of correlated electron-hole pairs, i.e. excitons. The nature of these excitons would be fully captured by knowing the quantum-mechanical wavefunction, which, however, is difficult to access both theoretically and experimentally. Here, we use femtosecond photoemission orbital tomography in combination with many-body perturbation theory to gain access to exciton wavefunctions in organic semiconductors. We find that the coherent sum of multiple electron-hole pair contributions that typically make up a single exciton can be experimentally evidenced by photoelectron spectroscopy. For the prototypical organic semiconductor buckminsterfullerene (C$_{60}$), we show how to disentangle such multiorbital contributions and thereby access key properties of the exciton wavefunctions including localization, charge-transfer character, and ultrafast exciton formation and relaxation dynamics.

Published

2023

22. Structural order promotes efficient separation of delocalized charges at molecular heterojunctions

Author

Jia, Xiangkun, Soprani, Lorenzo, Londi, Giacomo, Hosseini, Seyed Mehrdad, Talnack, Felix, Mannsfeld, Stefan, Shoaee, Safa, Neher, Dieter, Reineke, Sebastian, Muccioli, Luca, D'Avino, Gabriele, Vandewal, Koen, Beljonne, David, Jia, Donato Spoltore X., Reineke, S., Soprani, L., Muccioli, L., Londi, G., Beljonne, D., Hosseini, S. M., Shoaee, S., Neher, D., Talnack, F., Mannsfeld, S., D'Avino, G., Vandewal, K., and Spoltore, D.

Subjects

Physics - Applied Physics, Condensed Matter - Materials Science

Abstract

The energetic landscape at the interface between electron donating and accepting molecular materials favors efficient conversion of intermolecular charge-transfer states (CTS) into free charge carriers in high-performance organic solar cells. Here, we elucidate how interfacial energetics, charge generation and radiative recombination are affected by structural ordering. We experimentally determine the CTS binding energy of a series of model, small molecule donor-acceptor blends, where the used acceptors (B2PYMPM, B3PYMPM and B4PYMPM) differ only in the nitrogen position of their lateral pyridine rings. We find that the formation of an ordered, face-on molecular packing in B4PYMPM is beneficial to efficient, field-independent charge separation, leading to fill factors over 70% in photovoltaic devices. This is rationalized by a comprehensive computational protocol showing that, compared to the more amorphous and isotropically oriented B2PYMPM, the higher order of the B4PYMPM molecules provides more delocalized CTS. Furthermore, we find no correlation between the quantum efficiency of radiative free charge carrier recombination and the bound or unbound nature of the CTS. This work highlights the importance of structural ordering at donor-acceptor interfaces for efficient free carrier generation and shows that more ordering and less bound CT states do not preclude efficient radiative recombination.

Published

2022

23. Intersocietal survey on real-world asthma management in Italian children

Author

Maria Angela Tosca, Antonio D’Avino, Giuseppe Di Mauro, Gian Luigi Marseglia, Michele Miraglia del Giudice, Giorgio Ciprandi, SIAIP Delegates, and FIMP Delegates

Subjects

Asthma, Management, Italy, Primary care, Hospital, Academy, Pediatrics, RJ1-570

Abstract

Abstract Pediatric asthma management is a compelling challenge for every pediatrician. Different aspects require attention and definition. The present Intersocietal Survey aimed to collect real-world experiences from a sample of Italian pediatricians. A web platform was used to collect anonymous answers to the survey questions. Four hundred four pediatricians participated in this initiative promoted by the Italian Society of Pediatric Allergy and Immunology (SIAIP), the Society of Preventive and Social Pediatrics (SIPPS), and the Federation of Italian Pediatricians (FIMP). The results showed an extensive participation of primary care pediatricians (72%). There was a large consensus about diagnostic criteria and medication choice. However, treatment duration and device choice were various. Adherence to guidelines on general aspects of practical clinical management was high. In conclusion, the present Intersocietal Survey confirmed that pediatric asthma management is rather satisfactory, even if further improvement should concern a more widespread use of ICS for acute asthma/wheezing attacks, a better definition of the duration of ICS and bronchodilator use, and hospital-primary care integration.

Published

2024

24. Sedimentation and migration dynamics of a spherical particle in an elastoviscoplastic fluid near a wall

Author

Yazdi, Alie Abbasi and D'Avino, Gaetano

Subjects

Physics - Fluid Dynamics

Abstract

The sedimentation of a spherical particle in an elastoviscoplastic fluid in proximity of a flat wall is investigated by direct numerical simulations. The governing equations under inertialess conditions are solved by the finite element method with an Arbitrary Lagrangian-Eulerian formulation to manage the particle motion. The fluid is modeled with the Giesekus constitutive equation modified as proposed by Saramito (2007). The sedimentation, migration, and angular velocities are computed as a function of the particle-wall distance for various Weissenberg and Bingham numbers. The presence of a yield stress reduces the settling velocity and reverses the migration direction as compared to the purely viscoelastic case. The effect of the confining wall on the yielded and unyielded regions around the particle is investigated. The reversed particle migration phenomenon observed in the elastoviscoplastic fluid is attributed to the different shear rate distribution around the particle due to the presence of the yielded region. The negative wake behind the particle is discussed and related to the axial component of the viscoelastic stress.

Published

2023

25. Testing trends in gridded rainfall datasets at relevant hydrological scales: A comparative study with regional ground observations in Southern Italy

Author

Carmelo Cammalleri, Awais Naeem Sarwar, Angelo Avino, Gholamreza Nikravesh, Brunella Bonaccorso, Giuseppe Mendicino, Alfonso Senatore, and Salvatore Manfreda

Subjects

Annual and seasonal rainfall, Trends, Change points, E-OBS, ERA5, Physical geography, GB3-5030, Geology, QE1-996.5

Abstract

Study region: In this study, we compared the spatiotemporal evolution of rainfall trends in E-OBS and ERA5 to those detected using historical rainfall series recorded by ground-based networks in Southern Italy. In particular, the study is applied to the Campania, Basilicata, Apulia, Calabria and Sicily regions (84,000 km2 in total) on seasonal and annual scales. Study focus: Meteorological gridded datasets at large spatial scales are widely used in many hydroclimatic applications as they provide long and spatially homogeneous records. Regional trend analyses based on these data need to be treated with caution due to some potential limitations at relevant hydrological scales, such as the coarse spatial resolution and the spatio-temporal inhomogeneity of the underlying data. Gradual trends and abrupt change points were studied on rainfall data from 1979 to 2019. New hydrological insights for the region: Both gridded datasets capture the major trends in observed rainfall, with a predominance of positive values driven by changes in September-November. Overall, ERA5 returns flatter results compared to E-OBS, with the former comparing well with observations in Sicily and Apulia, while the latter is performing well in Campania and partially in Calabria and Basilicata. Most statistically significant trends are associated with discontinuities in the early 2000s, and this is well captured by both ground and gridded datasets. The general behavior in inter-annual variability trends in Southern Italy is captured by both datasets, with ERA5 also detecting regional patterns.

Published

2024

26. Quantum zero point electromagnetic energy difference between the superconducting and the normal phase in a HTc superconducting metal bulk sample

Author

Allocca, Annalisa, Avino, Saverio, Balestrieri, Sergio, Calloni, Enrico, Caprara, Sergio, Carpinelli, Massimo, D'Onofrio, Luca, D'Urso, Domenico, De Rosa, Rosario, Errico, Luciano, Gagliardi, Gianluca, Grilli, Marco, Mangano, Valentina, Marsella, Maria, Naticchioni, Luca, Pasqualetti, Antonio, Pepe, Giovanni Piero, Perciballi, Maurizio, Pesenti, Luca, Puppo, Paola, Rapagnani, Piero, Ricci, Fulvio, Rosa, Luigi, Rovelli, Carlo, Rozza, Davide, Ruggi, Paolo, Saini, Naurang, Sequino, Valeria, Sipala, Valeria, Stornaiuolo, Daniela, Tafuri, Francesco, Tagliacozzo, Arturo, Melo, Iara Tosta e, and Trozzo, Lucia

Subjects

Condensed Matter - Superconductivity

Abstract

We provide a novel methodological approach to the estimate of the change of the Quantum Vacuum electromagnetic energy density in a High critical Temperature superconducting metal bulk sample, when it undergoes the transition in temperature, from the superconducting to the normal phase. The various contributions to the Casimir energy in the two phases are highlighted and compared. While the TM polarization of the vacuum mode allows for a macroscopic description of the superconducting transition, the changes in the TE vacuum mode induced by the superconductive correlations are introduced within a microscopic model, which does not explicitly take into account the anisotropic structure of the material., Comment: 20 pages, 13 figures, to be published in Phys.Rev. B

Published

2022

27. Deterioration-associated microbiome of a modern photographic artwork: the case of Skull and Crossbones by Robert Mapplethorpe

Author

Mariagioia Petraretti, Antonino De Natale, Angelo Del Mondo, Romualdo Troisi, Olga De Castro, Nicolina Mormile, Mariano Avino, Gennaro Tortino, Giuseppe Oreste Graziano, Alessandro Vergara, and Antonino Pollio

Subjects

Fungi, Biodeterioration, High, Throughput sequencing, Raman microspectroscopy, Historical photographs, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract The preservation of cultural heritage, including ancient photographic materials, is of paramount importance in the field of conservation science. In this context, the microbial diversity of ‘Skull and Crossbones’, a 1983 photograph by Robert Mapplethorpe printed on silver gelatine, was assessed. We employed both culture-dependent and culture-independent methods to characterize microbial communities inhabiting this artwork. Vibrational Raman micro spectroscopy and FT-IR spectroscopy were utilized to assess the chemical degradation condition and characterize the chemical components of the silver gelatin print. The combination of molecular sequencing methods (Sanger and HTS approach) and non-invasive vibrational spectroscopy yielded valuable insights into the microbial communities thriving on photographic material and the chemical degradation of the print. Isolated fungal strains were added to the Fungal Collection at the University of Naples Federico II, and their deteriorative potential was investigated by adding substrates, commonly used in canvas photographs to the culture media. These results establish a link between microbial communities colonizing ancient photographic materials, paper decomposition, and the enzymatic patterns of the retrieved microorganisms. This information is invaluable for understanding and addressing biodeterioration progression on valuable works of art, such as historical photographs, which remain understudied.

Published

2024

28. Poly- and Perfluoroalkyl Substance (PFAS) Analysis in Environmental Matrices: An Overview of the Extraction and Chromatographic Detection Methods

Author

Alessia Iannone, Fabiana Carriera, Cristina Di Fiore, and Pasquale Avino

Subjects

PFAS, environment, exposure, toxicological hazards, extraction approaches, detection methods, Analytical chemistry, QD71-142

Abstract

Per- and polyfluoroalkyl substances (PFASs) are carbon–fluorine compounds with widespread industrial and domestic use, posing potential toxicological risks to humans and ecosystems. Several analytical methods have been developed to assess the occurrence of PFASs in the environment, but a standardized method, applicable to all matrices, is still lacking. This paper reviews the extraction and chromatographic detection methods for PFAS assessment in environmental samples, considering parameters such as the LOD, LOQ, and recoveries. Solid phase extraction (SPE) is commonly used, showing high recovery rates for water, soil, and sediment samples using HBL and WAX polymeric sorbents (85–100% and 93–111.5%, respectively). LC-MS has demonstrated low LODs and LOQs in seawater (0.01–0.08 ng L−1; 0.03–0.24 ng L−1), marine sediment (0.002–0.018 ng g−1; 0.004–0.054 ng g−1), and dust (0.08–0.68 pg g−1; 0.26–2.25 pg g−1), indicating its sensitivity when detecting trace PFAS levels. Evaluating PFASs is crucial for the development of future removal strategies and risk assessments. Potential solutions including the use of PFAS substitutes and innovative adsorption techniques for their adsorption could present promise in reducing their environmental presence.

Published

2024

29. Geohydrologic units of Ischia Island (Southern Tyrrhenian Sea, Italy)

Author

Silvia Fabbrocino, Eliana Bellucci Sessa, Sandro de Vita, Rosario Avino, Antonio Carandente, Enrica Marotta, Fabio Todisco, and Mauro Antonio Di Vito

Subjects

Hydrogeological map, hydrologic unit, permeability index, volcanic aquifer, thermal spring, Ischia Island, Maps, G3180-9980

Abstract

ABSTRACTThe first hydrogeological mapping of Ischia Island at the 1:10,000 scale is presented and discussed. The ‘Map of the geohydrologic units of Ischia Island’ and the accompanying hydrostratigraphic sequence at a basin scale are based on the most recent geological maps and data from the CAR.G Project, and on new volcanological and hydrogeological surveys and studies. Data sources include the database stored by the INGV, Sezione di Napoli, Osservatorio Vesuviano and field investigations, including a survey of the springs and thermo-mineral springs which has been neglected up to now. In total 130 volcanostratigraphic units and 18 geohydrologic units were recognized; the distribution of fumaroles sites was enhanced, and 60 springs/thermal springs were identified/rediscovered. The proposed hydrogeological map provides an overview of the volcano-tectonic evolution of Ischia Island and upgrades the hydrogeological model, becoming a catalyst for the effort to acquire better data and to manage natural both resources and risks.

Published

2024

30. Tranexamic acid versus oxytocin prophylaxis in reducing post-partum blood loss, in low-risk pregnant women: TRANOXY STUDY, a phase III randomized clinical trialResearch in context

Author

Antonio Ragusa, Fernando Ficarola, Amerigo Ferrari, Nicoletta Spirito, Mario Ardovino, Domenico Giraldi, Elisario Stuzziero, Denise Rinaldo, Roberto Procaccianti, Giovanni Larciprete, Caterina De Luca, Sara D'Avino, Giulia Principi, Roberto Angioli, and Alessandro Svelato

Subjects

Tranexamic acid, Oxytocin, Postpartum hemorrhage, Hemorrhage, Obstetric labor complications, Medicine (General), R5-920

Abstract

Summary: Background: To assess the equivalence of tranexamic acid (TRAN) versus synthetic oxytocin (OXY) in reducing post-partum blood loss, in full-term patients (37–42 weeks), at low risk of post-partum hemorrhage, with vaginal childbirth. Methods: Phase III, randomized (1:1), open-label, longitudinal, multi-center, prospective clinical trial (Prot. n 63209, ClinicalTrials.gov Identifier: NCT02775773). From January 7, 2020, to June 30, 2023, a total of 256 women were enrolled at two general urban community hospitals in Italy, serving a multi-ethnic patient population with National Health Insurance. The primary outcome was to explore a potential equivalence between the two treatments (OXY and TRAN) in preventing total blood loss. Therefore, we randomized 231 women into two groups: Group A (OXY), 127 women who were administered 10UI intramuscularly within 5 min from childbirth; Group B (TRAN), 104 women to whom 1-g slow intravenous infusion was administered within 5 min from childbirth. Findings: At the time of delivery, mean blood loss for OXY group versus TRAN group was 269.12 mL versus 263.88 mL, respectively, with equivalence between the two groups. Similarly, there was equivalence in total blood loss between the OXY and the TRAN group (397.66 mL versus 405.64 mL, respectively. No statistical differences between Hb levels at admission and discharge in the two groups were reported. No difference was found in terms of additional uterotonic and surgical therapies between the two groups of patients. Neither group showed thrombotic complications at check-up performed after 7 days or after a questionnaire regarding adverse effects, subjected after 40 days. Interpretation: The study shows the equivalence of tranexamic acid versus synthetic oxytocin in post-partum blood loss prophylaxis in term patients at low risk of PPH with vaginal childbirth. The safety profiles of OXY and TRAN were similar. Funding: None.

Published

2024

31. Universal polarization energies for defects in monolayer, surface and bulk hexagonal boron nitride : A finite-size fragments GW approach

Author

Amblard, David, D'Avino, Gabriele, Duchemin, Ivan, and Blase, Xavier

Subjects

Condensed Matter - Materials Science

Abstract

We study defect energy levels in hexagonal boron-nitride with varying number of layers using a fragment many-body $GW$ formalism, taking as examples the paradigmatic carbon-dimer and $C_BV_N$ defects. We show that a single layer can be fragmented in polarizable finite-size areas reproducing faithfully the effect of the dielectric environment, dramatically facilitating the study at the many-body level of point defects in the dilute limit. The evolution of defect energy levels from the monolayer to a $n$-layer system due to increased screening, labeled polarization energies, follow a simple $({\Delta P}/n + P_{\infty})$ behavior. The coefficients $\Delta P$ and $P_{\infty}$ are found to be close-to-universal, with opposite signs for holes and electrons, characterizing mainly the host and the position of the defect (surface or bulk), but hardly the defect type. Our results rationalize the evolution of defect energy levels with layers number, allowing to safely extrapolate results obtained for the monolayer to few-layers, surface or bulk \textit{h}-BN. The present many-body fragment approach further opens the door to studying disordered 2D layers., Comment: Published in Phys. Rev. Materials 6, 064008 (2022)

Published

2022

32. Emission rates of particle-bound heavy metals and polycyclic aromatic hydrocarbons in PM fractions from indoor combustion sources

Author

Fappiano, L., Caracci, E., Iannone, A., Murru, A., Avino, P., Campagna, M., Buonanno, G., and Stabile, L.

Published

2024

33. Disentangling the multiorbital contributions of excitons by photoemission exciton tomography

Author

Wiebke Bennecke, Andreas Windischbacher, David Schmitt, Jan Philipp Bange, Ralf Hemm, Christian S. Kern, Gabriele D’Avino, Xavier Blase, Daniel Steil, Sabine Steil, Martin Aeschlimann, Benjamin Stadtmüller, Marcel Reutzel, Peter Puschnig, G. S. Matthijs Jansen, and Stefan Mathias

Subjects

Science

Abstract

Abstract Excitons are realizations of a correlated many-particle wave function, specifically consisting of electrons and holes in an entangled state. Excitons occur widely in semiconductors and are dominant excitations in semiconducting organic and low-dimensional quantum materials. To efficiently harness the strong optical response and high tuneability of excitons in optoelectronics and in energy-transformation processes, access to the full wavefunction of the entangled state is critical, but has so far not been feasible. Here, we show how time-resolved photoemission momentum microscopy can be used to gain access to the entangled wavefunction and to unravel the exciton’s multiorbital electron and hole contributions. For the prototypical organic semiconductor buckminsterfullerene (C60), we exemplify the capabilities of exciton tomography and achieve unprecedented access to key properties of the entangled exciton state including localization, charge-transfer character, and ultrafast exciton formation and relaxation dynamics.

Published

2024

34. Casimir energy for N superconducting cavities: a model for the YBCO (BSCCO)

Author

Allocca, A., Avino, S., Balestrieri, S., Calloni, E., Caprara, S., Carpinelli, M., D'Onofrio, L., D'Urso, D., De Rosa, R., Errico, L., Gagliardi, G., Grilli, M., Mangano, V., Marsella, M., Naticchioni, L., Pasqualetti, A., Pepe, G. P., Perciballi, M., Pesenti, L., Puppo, P., Rapagnani, P., Ricci, F., Rosa, L., Rovelli, C., Rozza, D., Ruggi, P., Saini, N. L., Sequino, V., Sipala, V., Stornaiuolo, D., Tafuri, F., Tagliacozzo, A., Melo, I. Tosta E, and Trozzo, L.

Subjects

Quantum Physics, High Energy Physics - Theory

Abstract

In this paper we study the Casimir energy of a sample made by N cavities, with N >> 1, across the transition from the metallic to the superconducting phase of the constituting plates. After having characterized the energy for the configuration in which the layers constituting the cavities are made by dielectric and for the configuration in which the layers are made by plasma sheets, we concentrate our analysis on the latter. It represents the final step towards the macroscopic characterization of a "multi cavity" (with N large) necessary to fully understand the behaviour of the Casimir energy of a YBCO (or a BSCCO) sample across the transition. Our analysis is especially useful to the Archimedes experiment, aimed at measuring the interaction of the electromagnetic vacuum energy with a gravitational field. To this purpose, we aim at modulating the Casimir energy of a layered structure, the multi cavity, by inducing a transition from the metallic to the superconducting phase. After having characterized the Casimir energy of such a structure for both the metallic and the superconducting phase, we give an estimate of the modulation of the energy across the transition., Comment: 14 pages, 6 figures, 1 table

Published

2022

35. The Assessment of the Vascular Risk for Facial Procedures using Thermal Scanning Imaging and Doppler Ultrasonography

Author

Daniela Elena Gheoca MUTU, Laura RADUCU, Adelaida AVINO, Florin Teodor BOBIRCA, Cosmin-Marian PANTU, Iulian Alexandru DOGARU, Iulian SLAVU, Abdalah ABU BAKER, Florin Mihail FILIPOIU, and Cornelia NITIPIR

Subjects

doppler ultrasound, facial injectology, aesthetic procedures, thermal scanning, facial vessels, Medicine, Medicine (General), R5-920

Abstract

Introduction: Surgical and non-surgical facial procedures have gained immense popularity thanks to their aesthetic benefits. Understanding the vascularization of the face and assessing potential risks is crucial to ensure patient safety and optimal outcomes. This study aims to evaluate the utility of thermal scanning and Doppler ultrasonography in evaluating the vascular risk for facial procedures. Material and Methods: A cohort of 60 patients were included in this prospective study. Preoperative thermal scanning and Doppler ultrasonography were performed in order to visualize the facial vasculature and identify potential areas of risk. Results: For 30 patients, we performed preprocedural Doppler ultrasound imaging and thermal scanning at the injection site. Only 6.66% of them suffered vascular complications, whilst 23.33% among those who didn’t undergo ultrasound and thermoscanning suffered vascular injuries. The combined use of these tools proved to be valuable in assessing the vascular risk for facial procedures. The findings emphasize the importance of preoperative assessment to identify patients at risk for vascular complications. Conclusions: Thermal scanning and Doppler ultrasonography offer a comprehensive approach to assessing the vascular risk for facial procedures. By ensuring the identification of abnormal vascular patterns and altered blood flow dynamics, these techniques enhance patient safety and procedure planning.

Published

2023

36. Thermal noise-limited beam balance as prototype of the Archimedes vacuum weight experiment and B-L dark photon search

Author

Allocca, Annalisa, Avino, Saverio, Calloni, Enrico, Caprara, Sergio, Carpinelli, Massimo, Contu, Andrea, D’Onofrio, Luca, D’Urso, Domenico, De Rosa, Rosario, Errico, L., Esposito, Marina, Gagliardi, Gianluca, Grilli, Marco, Mangano, Valentina, Marsella, Maria, Naticchioni, Luca, Pasqualetti, Antonio, Pepe, Gianpiero, Perciballi, Maurizio, Puppo, Paola, Rapagnani, Piero, Ricci, Fulvio, Rosa, Luigi, Rovelli, Carlo, Rozza, Davide, Ruggi, Paolo, Saini, Naurang L., Sequino, Valeria, Sipala, Valeria, Stornaiuolo, Daniela, Tafuri, Francesco, and Trozzo, Lucia

Published

2024

37. High-resolution geoelectrical characterization and monitoring of natural fluids emission systems to understand possible gas leakages from geological carbon storage reservoirs

Author

Salone, Rosanna, De Paola, Claudio, Carbonari, Rolando, Rufino, Francesco, Avino, Rosario, Caliro, Stefano, Cuoco, Emilio, Santi, Alessandro, and Di Maio, Rosa

Published

2023

38. Risk of osteoporotic fracture and refracture: the importance of index fracture site

Author

Izquierdo-Avino, R., Cebollada-Gadea, L., Jordan-Jarque, M., Bordonaba-Bosque, D., and López-Cabanas, J. A.

Published

2023

39. Paracetamol and ibuprofen combination for the management of acute mild-to-moderate pain in children: expert consensus using the Nominal Group Technique (NGT)

Author

Parri, Niccolò, Silvagni, Davide, Chiarugi, Alberto, Cortis, Elisabetta, D’Avino, Antonio, Lanari, Marcello, Marchisio, Paola Giovanna, Vezzoli, Cesare, Zampogna, Stefania, and Staiano, Annamaria

Published

2023

40. UPDATE - 2022 Italian guidelines on the management of bronchiolitis in infants

Author

Manti, Sara, Staiano, Annamaria, Orfeo, Luigi, Midulla, Fabio, Marseglia, Gian Luigi, Ghizzi, Chiara, Zampogna, Stefania, Carnielli, Virgilio Paolo, Favilli, Silvia, Ruggieri, Martino, Perri, Domenico, Di Mauro, Giuseppe, Gattinara, Guido Castelli, D’Avino, Antonio, Becherucci, Paolo, Prete, Arcangelo, Zampino, Giuseppe, Lanari, Marcello, Biban, Paolo, Manzoni, Paolo, Esposito, Susanna, Corsello, Giovanni, and Baraldi, Eugenio

Published

2023

41. Modifying platelets at their birth: anti-thrombotic therapy without haemorrhage

Author

Conor Feely, Nitika Kaushal, Pier Paolo D’Avino, and John Martin

Subjects

megakaryocyte, platelet, thrombosis, therapeutics, ploidy, Therapeutics. Pharmacology, RM1-950

Abstract

Cardiovascular disease is a leading cause of death. The current approach to the prevention of arterial thrombosis in cardiovascular disease is dependent on the use of therapies which inhibit the activation of platelets. Predictably these are associated with an increased risk of haemorrhage which causes significant morbidity. The thrombotic potential of an activated platelet is modifiable; being determined before thrombopoiesis. Increased megakaryocyte ploidy is associated with larger and more active platelets carrying an increased risk of thrombosis. The reduction in the ploidy of megakaryocytes is therefore a novel area of therapeutic interest for reducing thrombosis. We propose a new therapeutic approach for the prevention and treatment of thrombosis by targeting the reduction in ploidy of megakaryocytes. We examine the role of a receptor mediated event causing megakaryocytes to increase ploidy, the potential for targeting the molecular mechanisms underpinning megakaryocyte endomitosis and the existence of two separate regulatory pathways to maintain haemostasis by altering the thrombotic potential of platelets as targets for novel therapeutic approaches producing haemostatically competent platelets which are not prothrombotic.

Published

2024

42. Doping-induced dielectric catastrophe prompts free-carrier release in organic semiconductors

Author

Comin, Massimiliano, Fratini, Simone, Blase, Xavier, and D'Avino, Gabriele

Subjects

Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter

Abstract

The control over material properties attainable through molecular doping is essential to many technological applications of organic semiconductors, such as OLED or thermoelectrics. These excitonic semiconductors typically reach the degenerate limit only at impurity concentrations of 5-10\%, a phenomenon that has been put in relation to the strong Coulomb binding between charge carriers and ionized dopants, and whose comprehension remained elusive so far. This study proposes a general mechanism for the release of carriers at finite doping in terms of collective screening phenomena. A multiscale model for the dielectric properties of doped organic semiconductor is set up by combining first principles and microelectrostatic calculations. Our results predict a large nonlinear enhancement of the dielectric constant (ten-fold at 8\% load) as the system approaches a dielectric instability (catastrophe) upon increasing doping. This can be attributed to the presence of highly polarizable host-dopant complexes, plus a nontrivial leading contribution from dipolar interactions in the disordered and heterogeneous system. The enhanced screening in the material drastically reduces the (free) energy barriers for electron-hole separation, rationalizing the possibility for thermal charge release. The proposed mechanism is consistent with conductivity data and sets the basis for achieving higher conductivities at lower doping loads.

Published

2021

43. Trojan horse effects of microplastics: A mini-review about their role as a vector of organic and inorganic compounds in several matrices

Author

Fabiana Carriera, Cristina Di Fiore, and Pasquale Avino

Subjects

microplastics, vector, pollutants, heavy metals, polycyclic aromatic hydrocarbons, pesticides, Environmental sciences, GE1-350

Abstract

The "Trojan horse effect" of microplastics for organic and inorganic contaminants is an interesting topic. So far, the scientific community has focused on microplastics strictly as contaminants, but their role as vectors is still undefined. Adsorption of pollutants follows the Freundlich model by physisorption mechanism. Furthermore, ages and types of microplastics influence the adsorption of pollutants onto microplastics. Moreover, natural particles, like algae particles, present in the environment can interfere in the adsorption mechanisms. Due to their chemical composition of mainly O and N, it has been suggested that natural particles have a stronger adsorption affinity for some pollutants. Furthermore, microplastic's role as vector of pollutants into organisms is controversial. In fact, it has been suggested that the release is species-specific. In T. japonicus, accumulation of Hg loaded onto microplastics increased by 2.5 times, whereas a reduction of bioavailability of Hg was observed in R. lens.

Published

2023

44. High-resolution geoelectrical characterization and monitoring of natural fluids emission systems to understand possible gas leakages from geological carbon storage reservoirs

Author

Rosanna Salone, Claudio De Paola, Rolando Carbonari, Francesco Rufino, Rosario Avino, Stefano Caliro, Emilio Cuoco, Alessandro Santi, and Rosa Di Maio

Subjects

Medicine, Science

Abstract

Abstract Gas leakage from deep geologic storage formations to the Earth’s surface is one of the main hazards in geological carbon sequestration and storage. Permeable sediment covers together with natural pathways, such as faults and/or fracture systems, are the main factors controlling surface leakages. Therefore, the characterization of natural systems, where large amounts of natural gases are released, can be helpful for understanding the effects of potential gas leaks from carbon dioxide storage systems. In this framework, we propose a combined use of high-resolution geoelectrical investigations (i.e. resistivity tomography and self-potential surveys) for reconstructing shallow buried fracture networks in the caprock and detecting preferential gas migration pathways before it enters the atmosphere. Such methodologies appear to be among the most suitable for the research purposes because of the strong dependence of the electrical properties of water-bearing permeable rock, or unconsolidated materials, on many factors relevant to CO2 storage (i.e. porosity, fracturing, water saturation, etc.). The effectiveness of the suggested geoelectrical approach is tested in an area of natural gas degassing (mainly CH4) located in the active fault zone of the Bolle della Malvizza (Southern Apennines, Italy), which could represent a natural analogue of gas storage sites due to the significant thicknesses (hundreds of meters) of impermeable rock (caprock) that is generally required to prevent carbon dioxide stored at depth from rising to the surface. The obtained 3D geophysical model, validated by the good correlation with geochemical data acquired in the study area and the available geological information, provided a structural and physical characterization of the investigated subsurface volume. Moreover, the time variations of the observed geophysical parameters allowed the identification of possible migration pathways of fluids to the surface.

Published

2023

45. Structural and Dynamic Disorder, Not Ionic Trapping, Controls Charge Transport in Highly Doped Conducting Polymers

Author

Jacobs, Ian E, D’Avino, Gabriele, Lemaur, Vincent, Lin, Yue, Huang, Yuxuan, Chen, Chen, Harrelson, Thomas F, Wood, William, Spalek, Leszek J, Mustafa, Tarig, O’Keefe, Christopher A, Ren, Xinglong, Simatos, Dimitrios, Tjhe, Dion, Statz, Martin, Strzalka, Joseph W, Lee, Jin-Kyun, McCulloch, Iain, Fratini, Simone, Beljonne, David, and Sirringhaus, Henning

Subjects

Engineering, Macromolecular and Materials Chemistry, Materials Engineering, Chemical Sciences, General Chemistry, Chemical sciences

Abstract

Doped organic semiconductors are critical to emerging device applications, including thermoelectrics, bioelectronics, and neuromorphic computing devices. It is commonly assumed that low conductivities in these materials result primarily from charge trapping by the Coulomb potentials of the dopant counterions. Here, we present a combined experimental and theoretical study rebutting this belief. Using a newly developed doping technique based on ion exchange, we prepare highly doped films with several counterions of varying size and shape and characterize their carrier density, electrical conductivity, and paracrystalline disorder. In this uniquely large data set composed of several classes of high-mobility conjugated polymers, each doped with at least five different ions, we find electrical conductivity to be strongly correlated with paracrystalline disorder but poorly correlated with ionic size, suggesting that Coulomb traps do not limit transport. A general model for interacting electrons in highly doped polymers is proposed and carefully parametrized against atomistic calculations, enabling the calculation of electrical conductivity within the framework of transient localization theory. Theoretical calculations are in excellent agreement with experimental data, providing insights into the disorder-limited nature of charge transport and suggesting new strategies to further improve conductivities.

Published

2022

46. Analysis of external and internal disorder to understand band-like transport in n-type organic semiconductors

Author

Stoeckel, Marc-Antoine, Olivier, Yoann, Gobbi, Marco, Dudenko, Dmytro, Lemaur, Vincent, Zbiri, Mohamed, Guilbert, Anne A. Y., D'Avino, Gabriele, Liscio, Fabiola, Migliori, Andrea, Ortolani, Luca, Demitri, Nicola, Jin, Xin, Jeong, Young-Gyun, Liscio, Andrea, Nardi, Marco-Vittorio, Pasquali, Luca, Razzari, Luca, Beljonne, David, Samori, Paolo, and Orgiu, Emanuele

Subjects

Condensed Matter - Materials Science

Abstract

Charge transport in organic semiconductors is notoriously extremely sensitive to the presence of disorder, both internal and external (i.e. related to the interactions with the dielectric layer), especially for n-type materials. Internal dynamic disorder stems from large thermal fluctuations both in intermolecular transfer integrals and (molecular) site energies in weakly interacting van der Waals solids and sources transient localization of the charge carriers. The molecular vibrations that drive transient localization typically operate at low-frequency (< a-few-hundred cm-1), which renders it difficult to assess them experimentally. Hitherto, this has prevented the identification of clear molecular design rules to control and reduce dynamic disorder. In addition, the disorder can also be external, being controlled by the gate insulator dielectric properties. Here we report on a comprehensive study of charge transport in two closely related n-type molecular organic semiconductors using a combination of temperature-dependent inelastic neutron scattering and photoelectron spectroscopy corroborated by electrical measurements, theory and simulations. We provide unambiguous evidence that ad hoc molecular design enables to free the electron charge carriers from both internal and external disorder to ultimately reach band-like electron transport., Comment: arXiv admin note: text overlap with arXiv:1909.05344

Published

2021

47. Structural and dynamic disorder, not ionic trapping, controls charge transport in highly doped conducting polymers

Author

Jacobs, Ian E., D'Avino, Gabriele, Lemaur, Vincent, Lin, Yue, Huang, Yuxuan, Chen, Chen, Harrelson, Thomas, Wood, William, Spalek, Leszek J., Mustafa, Tarig, O'Keefe, Christopher A., Ren, Xinglong, Simatos, Dimitrios, Tjhe, Dion, Statz, Martin, Strzalka, Joseph, Lee, Jin-Kyun, McCulloch, Iain, Fratini, Simone, Beljonne, David, and Sirringhaus, Henning

Subjects

Condensed Matter - Materials Science

Abstract

Doped organic semiconductors are critical to emerging device applications, including thermoelectrics, bioelectronics, and neuromorphic computing devices. It is commonly assumed that low conductivities in these materials result primarily from charge trapping by the Coulomb potentials of the dopant counter-ions. Here, we present a combined experimental and theoretical study rebutting this belief. Using a newly developed doping technique, we find the conductivity of several classes of high-mobility conjugated polymers to be strongly correlated with paracrystalline disorder but poorly correlated with ionic size, suggesting that Coulomb traps do not limit transport. A general model for interacting electrons in highly doped polymers is proposed and carefully parameterized against atomistic calculations, enabling the calculation of electrical conductivity within the framework of transient localisation theory. Theoretical calculations are in excellent agreement with experimental data, providing insights into the disordered-limited nature of charge transport and suggesting new strategies to further improve conductivities.

Published

2021

48. Enhancing Oral 5-ASA Effectiveness in Mild-to-Moderate Ulcerative Colitis through an H. erinaceus-Based Nutraceutical Add-on Multi-Compound: The 'HERICIUM-UC' Two-Arm Multicentre Retrospective Study

Author

Antonio Tursi, Alessandro D’Avino, Giovanni Brandimarte, Giammarco Mocci, Raffaele Pellegrino, Edoardo Vincenzo Savarino, Antonietta Gerarda Gravina, and the HERICIUM-UC Study Group

Subjects

ulcerative colitis, nutraceuticals, Hericium erinaceus, 5-ASA, prebiotics, probiotics, Pharmacy and materia medica, RS1-441

Abstract

Mild-to-moderate ulcerative colitis (UC) management is centred on 5-aminosalicylic acid (5-ASA) derivatives. Whether supplementing 5-ASA with nutraceuticals can provide real advantages in UC-relevant outcomes is unclear. This retrospective multicentre study compared clinical remission, response rates, and faecal calprotectin levels in a two-arm design, including patients treated with 5-ASA alone and those with additional H. erinaceus-based multi-compound supplementation. In the 5-ASA alone group, clinical response rates were 41% at three months (T1) and 60.2% at six months (T2), while corresponding clinical remission rates were 16.9% and 36.1%. In the nutraceutical supplementation group, clinical response rates were 49.6% (T1) and 70.4% (T2), with clinical remission rates of 30.4% (T1) and 50.9% (T2). No significant differences in clinical response rates between the groups at T1 (p = 0.231) and T2 (p = 0.143) emerged. Clinical remission rates differed significantly at both time points (p = 0.029 and p = 0.042, respectively). Faecal calprotectin levels decreased significantly in both groups during the retrospective follow-up (p < 0.05), and this was more pronounced in nutraceutical supplementation patients at both T1 (p = 0.005) and T2 (p = 0.01). No adverse events were reported. This multi-component nutraceutical supplementation offers real-world potential in controlling disease activity in patients with mild-to-moderate UC.

Published

2024

49. Quantification of Polycyclic Aromatic Hydrocarbons (PAHs) in Various Fruit Types: A Comparative Analysis

Author

Cristina Di Fiore, Monica Maio, Ivan Notardonato, and Pasquale Avino

Subjects

polycyclic aromatic hydrocarbons, fruits, GC-FID, pollution, routine analysis, Meteorology. Climatology, QC851-999

Abstract

The exposure of humans to polycyclic aromatic hydrocarbons (PAHs) through fruits is a scarcely investigated topic. The atmospheric deposition of PAHs could contribute to such an issue. The present paper would like to propose an easy, fast, and routinary analytical method to extract and quantify PAHs in apples, pears, and grapes. Dispersive liquid–liquid microextraction allowed us to recover PAHs ranging between 68.0 ± 1.2 and 96.2 ± 0.8% from fruit. Gas chromatography equipped with flame ionization detector analysis showed satisfactory analytical parameters, with details like R2 > 0.9912 in a concentration range of 0.5–500 µg mL−1, with a variability ranging within 0.7–2.3%. Rural fruit samples were found to be more contaminated by PAHs compared to urban samples, likely due to the use of non-green fuels in rural areas considered in this study. Further in-depth research on this topic is strongly recommended due to the relevance of fruits in the Mediterranean diet.

Published

2024

50. Variations in the Five Facets of Mindfulness in Italian Oncology Nurses according to Sex, Work Experience in Oncology, and Shift Work

Author

Elsa Vitale, Karen Avino, Rocco Mea, Maria Colomba Comes, Samantha Bove, Luana Conte, Roberto Lupo, Ivan Rubbi, Maicol Carvello, Stefano Botti, Giorgio De Nunzio, and Raffaella Massafra

Subjects

holistic, mindfulness, oncology nursing, gender, shift work, work experience, Medicine

Abstract

Background: Oncology nurses support cancer patients in meeting their self-care needs, often neglecting their own emotions and self-care needs. This study aims to investigate the variations in the five facets of holistic mindfulness among Italian oncology nurses based on gender, work experience in oncology, and shift work. Method: A cross-sectional study was carried out in 2023 amongst all registered nurses who were employed in an oncology setting and working in Italy. Results: There were no significant differences in all five facets of holistic mindfulness (p ≥ 0.05) according to gender, work experience in the oncology field, and shift work. Conclusion: Could holistic mindfulness be defined as an intrinsic individual characteristic? Surely, more insights will be necessary to better define the holistic trend in oncology nursing.

Published

2024