Your search keyword '"Di Bernardo I"' showing total 32 results

1. Progress in epitaxial thin-film Na3Bi as a topological electronic material

Author

Di Bernardo, I., Hellerstedt, J., Liu, C., Akhgar, G., Wu, W., Yang, S. A., Culcer, D., Mo, S. -K., Adam, S., Edmonds, M. T., and Fuhrer, M. S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Chemical Physics

Abstract

Na3Bi was the first experimentally verified topological Dirac semimetal (TDS), and is a 3D analogue of graphene hosting relativistic Dirac fermions. Its unconventional momentum-energy relationship is interesting from a fundamental perspective, yielding exciting physical properties such as chiral charge carriers, the chiral anomaly, and weak anti-localization. It also shows promise for realising topological electronic devices such as topological transistors. In this review, an overview of the substantial progress achieved in the last few years on Na3Bi is presented, with a focus on technologically relevant large-area thin films synthesised via molecular beam epitaxy. Key theoretical aspects underpinning the unique electronic properties of Na3Bi are introduced. Next, the growth process on different substrates is reviewed. Spectroscopic and microscopic features are illustrated, and an analysis of semi-classical and quantum transport phenomena in different doping regimes is provided. The emergent properties arising from confinement in two dimensions, including thickness-dependent and electric-field driven topological phase transitions, are addressed, with an outlook towards current challenges and expected future progress.

Published

2020

2. Importance of interactions for the band structure of the topological Dirac semimetal Na3Bi

Author

Di Bernardo, I., Collins, J., Wu, W., Zhou, J., Yang, S. A., Ju, S., Edmonds, M. T., and Fuhrer, M. S.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter, Condensed Matter - Strongly Correlated Electrons

Abstract

We experimentally measure the band dispersions of topological Dirac semimetal Na3Bi using Fourier-transform scanning tunneling spectroscopy to image quasiparticle interference on the (001) surface of molecular-beam epitaxy-grown Na3Bi thin films. We find that the velocities for the lowest-lying conduction and valencebands are 1.6x10^6 m/s and 4.2x10^5 m/s respectively, significantly higher than previous theoreticalpredictions. We compare the experimental band dispersions to the theoretical band structures calculated usingan increasing hierarchy of approximations of self-energy corrections due to interactions: generalized gradientapproximation (GGA), meta-GGA, Heyd-Scuseria-Ernzerhof exchange-correlation functional (HSE06), and GW methods. We find that density functional theory methods generally underestimate the electron velocities. However, we find significantly improved agreement with an increasingly sophisticated description of the exchange and interaction potential, culminating in reasonable agreement with experiments obtained by the GW method. The results indicate that exchange-correlation effects are important in determining the electronicstructure of this Na3Bi, and are likely the origin of the high velocity. The electron velocity is consistent withrecent experiments on ultrathin Na3Bi and also may explain the ultrahigh carrier mobility observed in heavilyelectron-doped Na3Bi.

Published

2020

3. Importance of interactions for the band structure of the topological Dirac semimetal Na3Bi

Author

Di Bernardo, I., primary, Collins, J., additional, Wu, W., additional, Zhou, Ju, additional, Yang, Shengyuan A., additional, Ju, Sheng, additional, Edmonds, M. T., additional, and Fuhrer, M. S., additional

Published

2020

4. NiO–ZnO Nanoheterojunction Networks for Room-Temperature Volatile Organic Compounds Sensing

Author

Chen, H, Bo, R, Shrestha, A, Xin, B, Nasiri, N, Zhou, J, Di Bernardo, I, Dodd, A, Saunders, M, Lipton-Duffin, J, White, T, Tsuzuki, T, and Tricoli, A

Abstract

© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim Engineering of highly performing nanomaterials, capable of rapid detection of trace concentrations of gas molecules at room temperature, is key to the development of the next generation of miniaturized chemical sensors. Here, a highly performing nanoheterojunctions layout is presented for the rapid room-temperature chemical sensing of volatile organic compounds down to ten particles per billion concentrations. The layout consists of a 3D network of nickel oxide–zinc oxide (NiO–ZnO) p–n semiconductors with grain size of ≈20 nm nanometers and a porosity of ≈98%. Notably, it is observed that the formation of the p–n heterojunctions by decoration of a ZnO nanoparticle networks with NiO increases the sensor response by more than four times while improving the lower limit of detection. Under solar light irradiation, the optimal NiO–ZnO nanoheterojunction networks demonstrate a strong and selective room-temperature response to two important volatile organic compounds utilized for breath analysis, namely acetone and ethanol. Furthermore, these NiO–ZnO nanoheterojunctions show an inverse response to acetone from that observed for all others reducing gas molecules (i.e., ethanol, propane, and ethylbenzene). It is believed that these novel insights of the optoelectrochemical properties of ultraporous nanoheterojunction networks provide guidelines for the future design of low-power solid-state chemical sensors.

Published

2018

5. P.539 Augmentative repetitive TMS in the treatment of poor responder depressed patients: a follow up study

Author

Vismara, M.E.M., primary, Arici, C., additional, Degoni, L., additional, Grancini, B., additional, De Carlo, V., additional, Benatti, B., additional, Cirnigliaro, G., additional, Caricasole, V., additional, Varinelli, A., additional, Di Bernardo, I., additional, and Dell'Osso, B., additional

Published

2019

6. Effect of substrate polishing on the growth of graphene on 3C-SiC(111)/Si(111) by high temperature annealing

Author

Gupta, Bharati, Di Bernardo, I., Mondelli, Pierluigi, Della Pia, A., Betti, M.G., Iacopi, Francesca, Mariani, Carlo, Motta, Nunzio, Gupta, Bharati, Di Bernardo, I., Mondelli, Pierluigi, Della Pia, A., Betti, M.G., Iacopi, Francesca, Mariani, Carlo, and Motta, Nunzio

Abstract

We analyse the effects of substrate polishing and of the epilayer thickness on the quality of graphene layers grown by high temperature annealing on 3C–SiC(111)/Si(111) by scanning tunnelling microscopy, x-ray photoelectron spectroscopy, Raman spectroscopy, low energy electron diffraction and high resolution angle resolved photoemission spectroscopy. The results provide a comprehensive set of data confirming the superior quality of the graphene layers obtained on polished substrates, and the limitations of the growth obtained on unpolished surfaces.

Published

2016

7. Effect of substrate polishing on the growth of graphene on 3C-SiC(111)/Si(111) by high temperature annealing

Author

Gupta, B, Di Bernardo, I, Mondelli, P, Della Pia, A, Betti, MG, Iacopi, F, Mariani, C, Motta, N, Gupta, B, Di Bernardo, I, Mondelli, P, Della Pia, A, Betti, MG, Iacopi, F, Mariani, C, and Motta, N

Abstract

© 2016 IOP Publishing Ltd. We analyse the effects of substrate polishing and of the epilayer thickness on the quality of graphene layers grown by high temperature annealing on 3C-SiC(111)/Si(111) by scanning tunnelling microscopy, x-ray photoelectron spectroscopy, Raman spectroscopy, low energy electron diffraction and high resolution angle resolved photoemission spectroscopy. The results provide a comprehensive set of data confirming the superior quality of the graphene layers obtained on polished substrates, and the limitations of the growth obtained on unpolished surfaces.

Published

2016

8. Effect of substrate polishing on the growth of graphene on 3C–SiC(111)/Si(111) by high temperature annealing

Author

Gupta, B, primary, Di Bernardo, I, additional, Mondelli, P, additional, Della Pia, A, additional, Betti, M G, additional, Iacopi, F, additional, Mariani, C, additional, and Motta, N, additional

Published

2016

9. Electronic structure of graphene/Co interfaces

Author

Pacilé, D., primary, Lisi, S., additional, Di Bernardo, I., additional, Papagno, M., additional, Ferrari, L., additional, Pisarra, M., additional, Caputo, M., additional, Mahatha, S. K., additional, Sheverdyaeva, P. M., additional, Moras, P., additional, Lacovig, P., additional, Lizzit, S., additional, Baraldi, A., additional, Betti, M. G., additional, and Carbone, C., additional

Published

2014

10. Moving towards a people-centric smart city

Author

Di Bernardo Irene, Cosimato Silvia, and Carrubbo Luca

Subjects

Information technology, T58.5-58.64

Abstract

European cities are getting smarter. Smart technologies such as the Internet of Things (IoT), Internet of Everything (IoE), and other AI-based technologies, are being injected more directly into the lives of citizens. Smart cities are seen as evolving ecosystems in which multiple actors act, react and interact over time to foster innovative solutions and provide better services for citizens. Despite the growing interest, existing research has to make key advances, important gaps persist as scholars lag behind theoretical development and rarely take into account the most important element of a city: people. Business and management scholars have focused on how to define strategies in smart cities, local policy, and others investigated the challenges of building a smart city. Few concerns deal with humans. In addressing these shortcomings, we tried to highlight why any smart city should be a community that learns, adapts, co-creates, and innovates. The purpose of this study is to investigate the human perspective that goes beyond the focus on technology related to smart cities in Europe, through an analysis in depth on how and how much citizens make cities smart. The focus is on people and their well-being combined with the shared knowledge and development that arises from each player in the ecosystem. To get an overall vision of the people-centric smart city we carry out an exploratory literature review with a PRISMA protocol that guides the identification of the studies to be included in the review. We finally provide implications for scholars and practitioners and suggest future research opportunities.

Published

2023

11. A smart tech lever to augment caregivers' touch and foster vulnerable patient engagement and well-being

Author

Roberta Massi, Tiziana Russo-Spena, Irene Di Bernardo, Marialuisa Marzullo, Cristina Mele, Alessandra La Salandra, Stefania Cialabrini, Mele, C., Marzullo, M., Di Bernardo, I., Russo Spena, T., Massi, R., La Salandra, A., and Cialabrini, S.

Subjects

Lever, business.product_category, Strategy and Management, Applied psychology, Well-being, Vulnerability, Patient engagement, Smart technologie, Action research, Augment, Psychology, business

Abstract

PurposeSome population groups face precarious health, reflecting their vulnerability, in terms of lack of agency or control. Smart technologies promise to transform people's lives from the enhanced connectedness, greater computational processing and more complex decision-making they can achieve. This study aims to investigate how smart technology can mitigate vulnerability and improve well-being.Design/methodology/approachThe research group, of three scholars and three managers, pursued an action research methodology with an iterative process of planning, action and learning. The authors conducted three related action studies: (1) adopting smart technologies, (2) fostering patient engagement and (3) assessing well-being.FindingsThe adoption of sensors and wearable devices had positive impacts for both patients and caregivers. Technologies highlighted their meaning as resources to support actors' (caregivers' and vulnerable patients') activities. Smart devices as resources get integrated, stimulate change and enable new practices. For caregivers, such innovative solutions help improve their knowledge of patients and their ability to act efficiently; for vulnerable patients, they fostered engagement in daily activities to improve well-being.Originality/valueThe paper delineates an overall model (SEVP) that describes how the integration of high-tech and high touch enables patient engagement to mitigate vulnerability and improve well-being.

Published

2022

12. Imaging the Breakdown and Restoration of Topological Protection in Magnetic Topological Insulator MnBi 2 Te 4 .

Author

Li Q, Di Bernardo I, Maniatis J, McEwen D, Dominguez-Celorrio A, Bhuiyan MTH, Zhao M, Tadich A, Watson L, Lowe B, Vu TH, Trang CX, Hwang J, Mo SK, Fuhrer MS, and Edmonds MT

Abstract

Quantum anomalous Hall (QAH) insulators transport charge without resistance along topologically protected chiral 1D edge states. Yet, in magnetic topological insulators to date, topological protection is far from robust, with zero-magnetic field QAH effect only realized at temperatures an order of magnitude below the Néel temperature T N , though small magnetic fields can stabilize QAH effect. Understanding why topological protection breaks down is therefore essential to realizing QAH effect at higher temperatures. Here a scanning tunneling microscope is used to directly map the size of exchange gap (E g,ex ) and its spatial fluctuation in the QAH insulator 5-layer MnBi 2 Te 4 . Long-range fluctuations of E g,ex are observed, with values ranging between 0 (gapless) and 70 meV, appearing to be uncorrelated to individual surface point defects. The breakdown of topological protection is directly imaged, showing that the gapless edge state, the hallmark signature of a QAH insulator, hybridizes with extended gapless regions in the bulk. Finally, it is unambiguously demonstrated that the gapless regions originate from magnetic disorder, by demonstrating that a small magnetic field restores E g,ex in these regions, explaining the recovery of topological protection in magnetic fields. The results indicate that overcoming magnetic disorder is the key to exploiting the unique properties of QAH insulators., (© 2024 The Authors. Advanced Materials published by Wiley‐VCH GmbH.)

Published

2024

13. Relevance of pharmacogenetic analyses and therapeutic drug monitoring of antidepressants for an individualized treatment of peripartum psychopathology.

Author

Colombo A, Cafaro R, Di Bernardo I, Mereghetti M, Cerolini L, Giacovelli L, Giorgetti F, Vanzetto S, Girone N, Savasi V, Cetin I, Clementi E, Bosi MF, Viganò CA, and Dell'Osso B

Subjects

Infant, Newborn, Female, Humans, Pregnancy, Peripartum Period, Drug Monitoring, Pharmacogenomic Testing, Placenta metabolism, Antidepressive Agents adverse effects, Cytochrome P-450 CYP2D6 genetics, Cytochrome P-450 CYP2D6 metabolism, Protein Isoforms, Mental Disorders drug therapy, Depressive Disorder, Major drug therapy

Abstract

Objective: Psychiatric disorders burden the peripartum period, often requiring psychopharmacological treatment, including antidepressants. Efficacy and tolerability of antidepressants are influenced by the physiological changes of the peripartum and individual metabolic profiles, which in turn can be modified by pregnancy. The objective of this study is to assess the relationship between antidepressants' pharmacokinetic profiles during pregnancy and individual metabolic profiles, along with the efficacy of the treatment., Methods: In total 87 outpatients with diagnoses of bipolar disorder, major depression, anxiety, obsessive-compulsive disorder and post-traumatic stress disorder who required antidepressant treatment during pregnancy were recruited. Genotyping analysis of hepatic cytochrome P450 (CYPs) individual isoforms was performed. Antidepressants' blood concentrations and psychometric assessments were collected at five time points. Antidepressants' cord blood concentrations were assessed at birth., Results: Sertraline showed greater stability in plasma concentrations and a lower placental penetrance index. Most of the antidepressants' concentrations below the therapeutic range were found in women with an extensive/ultrarapid metabolic profile. Antidepressants mainly metabolized by CYP2C19 were less frequently below the therapeutic range compared with antidepressants metabolized by CYP2D6., Conclusions: Pregnancy modulates cytochrome activity and drugs' pharmacokinetics. Genotyping analysis of CYPs isoforms and therapeutic drug monitoring might be used to guide clinicians in a well-tolerated treatment of psychiatric symptoms in pregnant women., (Copyright © 2023 The Author(s). Published by Wolters Kluwer Health, Inc.)

Published

2024

14. Metastable Polymorphic Phases in Monolayer TaTe 2 .

Author

Di Bernardo I, Ripoll-Sau J, Silva-Guillén JA, Calleja F, Ayani CG, Miranda R, Canadell E, Garnica M, and Vázquez de Parga AL

Abstract

Polymorphic phases and collective phenomena-such as charge density waves (CDWs)-in transition metal dichalcogenides (TMDs) dictate the physical and electronic properties of the material. Most TMDs naturally occur in a single given phase, but the fine-tuning of growth conditions via methods such as molecular beam epitaxy (MBE) allows to unlock otherwise inaccessible polymorphic structures. Exploring and understanding the morphological and electronic properties of new phases of TMDs is an essential step to enable their exploitation in technological applications. Here, scanning tunneling microscopy (STM) is used to map MBE-grown monolayer (ML) TaTe 2 . This work reports the first observation of the 1H polymorphic phase, coexisting with the 1T, and demonstrates that their relative coverage can be controlled by adjusting synthesis parameters. Several superperiodic structures, compatible with CDWs, are observed to coexist on the 1T phase. Finally, this work provides theoretical insight on the delicate balance between Te…Te and Ta-Ta interactions that dictates the stability of the different phases. The findings demonstrate that TaTe 2 is an ideal platform to investigate competing interactions, and indicate that accurate tuning of growth conditions is key to accessing metastable states in TMDs., (© 2023 The Authors. Small published by Wiley-VCH GmbH.)

Published

2023

15. The Impact of COVID-19 Lockdowns in a Sample of Outpatients in a Mental Health Department of a Metropolitan Hospital in Milan.

Author

Percudani M, Porcellana M, Di Bernardo I, Limosani I, Negri A, Zerbinati L, and Morganti C

Subjects

Communicable Disease Control, Hospitals, Urban, Humans, Outpatients, COVID-19, Mental Health

Abstract

Background and Objectives : Italy was the first country in Europe to face the coronavirus 2019 (COVID-19) pandemic and its consequences, which led to two phases of severe restrictions for its population. This study aims to estimate the connections between the trauma of the COVID-19 emergency and the clinical features of a sample of outpatients in a Milan Community Mental Health setting, comparing the first (April 2020) and second lockdowns (November 2020). Materials and Methods : The sample included 116 consecutive outpatients recruited in April 2020 and 116 in November 2020. The subjects were evaluated with Clinical Global Impression Severity (CGI-S), Brief Psychiatric Rating Scale (BPRS-18), and Impact of Event Scale-Revised (IES-R). Results : The IES-R identified 47.4% participants in April and 50% in November with clinical scores over the cut-off. The network analysis of BPRS-18 and IES-R depicted the connection among different symptoms; in April, Unusual Thought Content, Anxiety, and Somatic Concern represented the most central items, and the strongest connections were found between Uncooperativeness and Hostility, Blunted Affect and Emotional Withdrawal, and IES-Intrusion and IES-Arousal. In the November group, the most central items were represented by Conceptual Disorganization and Emotional Withdrawal, whereas the strongest connections were found between IES-Arousal and IES-Intrusion, Excitement and Grandiosity, and Unusual Thought Content and Conceptual Disorganization. Conclusions : Our findings show continued high distress levels and increased psychological burdens during the second phase of restrictions; this could be described as "pandemic fatigue", a general psychological weariness due to pandemic-related restrictions, as well as a lack of motivation to comply with them. As mental health professionals, our mission during these difficult times has been to keep community psychiatry services accessible, with particular regard to vulnerable and marginalized populations.

Published

2022

16. Defects, band bending and ionization rings in MoS 2 .

Author

Di Bernardo I, Blyth J, Watson L, Xing K, Chen YH, Chen SY, Edmonds MT, and Fuhrer MS

Abstract

Chalcogen vacancies in transition metal dichalcogenides are widely acknowledged as both donor dopants and as a source of disorder. The electronic structure of sulphur vacancies in MoS 2 however is still controversial, with discrepancies in the literature pertaining to the origin of the in-gap features observed via scanning tunneling spectroscopy (STS) on single sulphur vacancies. Here we use a combination of scanning tunnelling microscopy and STS to study embedded sulphur vacancies in bulk MoS 2 crystals. We observe spectroscopic features dispersing in real space and in energy, which we interpret as tip position- and bias-dependent ionization of the sulphur vacancy donor due to tip induced band bending. The observations indicate that care must be taken in interpreting defect spectra as reflecting in-gap density of states, and may explain discrepancies in the literature., (© 2022 IOP Publishing Ltd.)

Published

2022

17. Formation of a Stable Surface Oxide in MnBi 2 Te 4 Thin Films.

Author

Akhgar G, Li Q, Di Bernardo I, Trang CX, Liu C, Zavabeti A, Karel J, Tadich A, Fuhrer MS, and Edmonds MT

Abstract

Understanding the air stability of MnBi 2 Te 4 thin films is crucial for the development and long-term operation of electronic devices based on magnetic topological insulators. In the present work, we study MnBi 2 Te 4 thin films upon exposure to the atmosphere using a combination of synchrotron-based photoelectron spectroscopy, room-temperature electrical transport, and atomic force microscopy to determine the oxidation process. After 2 days of air exposure, a 2 nm thick oxide passivates the surface, corresponding to the oxidation of only the top two surface layers, with the underlying layers preserved. This protective oxide layer results in samples that still exhibit metallic conduction even after several days of air exposure. Furthermore, the work function decreases from 4.4 eV for pristine MnBi 2 Te 4 to 4.0 eV after the formation of the oxide, along with only a small shift in the core levels, indicating minimal doping as a result of air exposure. With the oxide confined to the top surface layers, and the underlying layers preserved, it may be possible to explore new avenues in how to handle, prepare, and passivate future MnBi 2 Te 4 devices.

Published

2022

18. Crossover from 2D Ferromagnetic Insulator to Wide Band Gap Quantum Anomalous Hall Insulator in Ultrathin MnBi 2 Te 4 .

Author

Trang CX, Li Q, Yin Y, Hwang J, Akhgar G, Di Bernardo I, Grubišić-Čabo A, Tadich A, Fuhrer MS, Mo SK, Medhekar NV, and Edmonds MT

Abstract

Intrinsic magnetic topological insulators offer low disorder and large magnetic band gaps for robust magnetic topological phases operating at higher temperatures. By controlling the layer thickness, emergent phenomena such as the quantum anomalous Hall (QAH) effect and axion insulator phases have been realized. These observations occur at temperatures significantly lower than the Néel temperature of bulk MnBi 2 Te 4 , and measurement of the magnetic energy gap at the Dirac point in ultrathin MnBi 2 Te 4 has yet to be achieved. Critical to achieving the promise of this system is a direct measurement of the layer-dependent energy gap and verification of a temperature-dependent topological phase transition from a large band gap QAH insulator to a gapless TI paramagnetic phase. Here we utilize temperature-dependent angle-resolved photoemission spectroscopy to study epitaxial ultrathin MnBi 2 Te 4 . We directly observe a layer-dependent crossover from a 2D ferromagnetic insulator with a band gap greater than 780 meV in one septuple layer (1 SL) to a QAH insulator with a large energy gap (>70 meV) at 8 K in 3 and 5 SL MnBi 2 Te 4 . The QAH gap is confirmed to be magnetic in origin, as it becomes gapless with increasing temperature above 8 K.

Published

2021

19. Managing Problematic Usage of the Internet and Related Disorders in an Era of Diagnostic Transition: An Updated Review.

Author

Dell'Osso B, Di Bernardo I, Vismara M, Piccoli E, Giorgetti F, Molteni L, Fineberg NA, Virzì C, Bowden-Jones H, Truzoli R, and Viganò C

Abstract

Introduction: Problematic Usage of the Internet (PUI) refers to a broad and likely heterogeneous group of Internet-related conditions associated with behavioural disturbances and functional impairment., Methods: Within PUI several conditions have been reported, including Gaming Disorder, Shopping Addiction, Cyberchondria, Gambling Disorder, Cyberpornography Addiction and Cyberbullying. While increasing reports in the field try to define the epidemiologic and clinical boundaries of these conditions, the rapid and continuous evolution of Internet related behaviours as well as their problematic/pathological expressions are often difficult to diagnose, assess, approach with treatment interventions and follow-up., Results: In addition, some of the PUI-related conditions show characteristics of addiction to the Internet as a preferential tool to engage in specific behaviours, while some others exclusively manifest on the Internet, making it necessary to find distinct assessment and treatment pathways., Conclusion: The inclusion of Internet Gaming Disorder in Section III by the DSM-5 and the recognition of Gaming Disorder by the ICD-11 opened the way for a systematic clinical investigation of this and other PUI-related conditions, particularly in terms of preventive and therapeutic strategies. The present article is aimed at offering an updated clinical overview on the main expressions of PUI, focussing on the latest acquisitions in this evolving field., (© 2021 Dell’Osso et al.)

Published

2021

20. Correlation between pharmacokinetics and pharmacogenetics of Selective Serotonin Reuptake Inhibitors and Selective Serotonin and Noradrenaline Reuptake Inhibitors and maternal and neonatal outcomes: Results from a naturalistic study in patients with affective disorders.

Author

Colombo A, Giordano F, Giorgetti F, Di Bernardo I, Bosi MF, Varinelli A, Cafaro R, Pileri P, Cetin I, Clementi E, Viganò CA, and Dell'Osso B

Subjects

Citalopram adverse effects, Escitalopram, Female, Humans, Mood Disorders drug therapy, Mood Disorders genetics, Pharmacogenetics, Pregnancy, Serotonin, Selective Serotonin Reuptake Inhibitors adverse effects, Serotonin and Noradrenaline Reuptake Inhibitors adverse effects

Abstract

Objective: Some studies have linked the use of selective serotonin reuptake inhibitors and selective serotonin and noradrenaline reuptake inhibitors (SSRIs/SNRIs) to the risk of perinatal complications. This study explored the relationship between pharmacokinetics and pharmacogenetics, SSRIs/SNRIs tolerability and effectiveness and maternal and newborn outcomes., Methods: Fifty-five pregnant women with Diagnostic and Statistical Manual of Mental Disorders, 5th Edition (DSM-5) diagnoses of affective disorders, treated with SSRIs/SNRIs, were recruited and, during the third trimester, their blood samples were collected for pharmacokinetic and pharmacogenetic analyses. Plasma levels and metabolic phenotypes were then related to different obstetrical and maternal outcomes., Results: The pharmacokinetic data were more stable for Sertraline, Citalopram, and Escitalopram compared to other molecules (p = 0.009). The occurrence of postnatal adaptation syndrome onset was associated with higher plasma levels for Sertraline (median at delivery: 16.7 vs. 10.5 ng/ml), but not for fluoxetine and venlafaxine. Finally, the subgroup within range plasma concentrations had less blood loss than the below range subgroup (p = 0.030)., Conclusions: Plasma levels of Sertraline, Citalopram and Escitalopram were more frequently in range in late pregnancy when compared to other drugs. Drug plasma concentrations do not strictly correlate with worse perinatal outcomes, but with possible differences between the different drugs., (© 2020 John Wiley & Sons Ltd.)

Published

2021

21. Overcoming Boltzmann's Tyranny in a Transistor via the Topological Quantum Field Effect.

Author

Nadeem M, Di Bernardo I, Wang X, Fuhrer MS, and Culcer D

Abstract

The subthreshold swing is the critical parameter determining the operation of a transistor in low-power applications such as switches. It determines the fraction of dissipation due to the gate capacitance used for turning the device on and off, and in a conventional transistor it is limited by Boltzmann's tyranny to k B T ln(10)/ q . Here, we demonstrate that the subthreshold swing of a topological transistor in which conduction is enabled by a topological phase transition via electric field switching, can be sizably reduced in a noninteracting system by modulating the Rashba spin-orbit interaction. By developing a theoretical framework for quantum spin Hall materials with honeycomb lattices, we show that the Rashba interaction can reduce the subthreshold swing by more than 25% compared to Boltzmann's limit in currently available materials but without any fundamental lower bound, a discovery that can guide future material design and steer the engineering of topological quantum devices.

Published

2021

22. Progress in Epitaxial Thin-Film Na 3 Bi as a Topological Electronic Material.

Author

Di Bernardo I, Hellerstedt J, Liu C, Akhgar G, Wu W, Yang SA, Culcer D, Mo SK, Adam S, Edmonds MT, and Fuhrer MS

Abstract

Trisodium bismuthide (Na 3 Bi) is the first experimentally verified topological Dirac semimetal, and is a 3D analogue of graphene hosting relativistic Dirac fermions. Its unconventional momentum-energy relationship is interesting from a fundamental perspective, yielding exciting physical properties such as chiral charge carriers, the chiral anomaly, and weak anti-localization. It also shows promise for realizing topological electronic devices such as topological transistors. Herein, an overview of the substantial progress achieved in the last few years on Na 3 Bi is presented, with a focus on technologically relevant large-area thin films synthesized via molecular beam epitaxy. Key theoretical aspects underpinning the unique electronic properties of Na 3 Bi are introduced. Next, the growth process on different substrates is reviewed. Spectroscopic and microscopic features are illustrated, and an analysis of semiclassical and quantum transport phenomena in different doping regimes is provided. The emergent properties arising from confinement in two dimensions, including thickness-dependent and electric-field-driven topological phase transitions, are addressed, with an outlook toward current challenges and expected future progress., (© 2021 Wiley-VCH GmbH.)

Published

2021

23. Engineering of SnO 2 -Graphene Oxide Nanoheterojunctions for Selective Room-Temperature Chemical Sensing and Optoelectronic Devices.

Author

Pargoletti E, Hossain UH, Di Bernardo I, Chen H, Tran-Phu T, Chiarello GL, Lipton-Duffin J, Pifferi V, Tricoli A, and Cappelletti G

Abstract

The development of high-performing sensing materials, able to detect ppb-trace concentrations of volatile organic compounds (VOCs) at low temperatures, is required for the development of next-generation miniaturized wireless sensors. Here, we present the engineering of selective room-temperature (RT) chemical sensors, comprising highly porous tin dioxide (SnO 2 )-graphene oxide (GO) nanoheterojunction layouts. The optoelectronic and chemical properties of these highly porous (>90%) p-n heterojunctions were systematically investigated in terms of composition and morphologies. Optimized SnO 2 -GO layouts demonstrate significant potential as both visible-blind photodetectors and selective RT chemical sensors. Notably, a low GO content results in an excellent UV light responsivity (400 A W -1 ), with short rise and decay times, and RT high chemical sensitivity with selective detection of VOCs such as ethanol down to 100 ppb. In contrast, a high concentration of GO drastically decreases the RT response to ethanol and results in good selectivity to ethylbenzene. The feasibility of tuning the chemical selectivity of sensor response by engineering the relative amount of GO and SnO 2 is a promising feature that may guide the future development of miniaturized solid-state gas sensors. Furthermore, the excellent optoelectronic properties of these SnO 2 -GO nanoheterojunctions may find applications in various other areas such as optoelectronic devices and (photo)electrocatalysis.

Published

2020

24. Treatment-related transient splenial lesion of the Corpus Callosum in patients with neuropsychiatric disorders: a literature overview with a case report.

Author

Cirnigliaro G, Di Bernardo I, Caricasole V, Piccoli E, Scaramelli B, Pomati S, Villa C, Pantoni L, and Dell'Osso B

Subjects

Adult, Humans, Magnetic Resonance Imaging, Magnetic Resonance Spectroscopy, Male, Anticonvulsants adverse effects, Antipsychotic Agents adverse effects, Corpus Callosum drug effects, Corpus Callosum pathology, Withholding Treatment

Abstract

Introduction : Transient-localized lesions of the splenium of the corpus callosum (SCC) have been described in various clinical conditions, some of them being attributed to the withdrawal of psychotropic drugs. The pathophysiology of the lesion reflects cytotoxic edema and reversible demyelination. Areas covered : The present article aimed at reviewing cases of transient SCC lesion exclusively related to changes in pharmacotherapy. It also reports the original case of a patient receiving a complex psychopharmacological therapy who developed a transient SCC lesion investigated by magnetic resonance imaging (MRI), magnetic resonance spectroscopy (MRS), and pharmacogenetic profiling. Expert opinion : To date, only one review on the subject has been published, analyzing 22 cases of transient SCC lesion arising in epileptic patients on antiepileptic therapy. It hypothesized that the nature of the lesion is a cytotoxic edema and the cases described in the subsequent 14 years seem to support this hypothesis. The authors reported the case of an Italian-Egyptian patient who developed a transient SCC lesion after the rapid withdrawal of Carbamazepine and Lurasidone. The lesion completely disappeared from the MRI performed after 1 month. Patient's ethnic group and its pharmacogenetic profile were considered as possible causes of altered drug metabolism and, likely, of the SCC lesion.

Published

2020

25. One-Step Synthesis of Porous Transparent Conductive Oxides by Hierarchical Self-Assembly of Aluminum-Doped ZnO Nanoparticles.

Author

Bo R, Zhang F, Bu S, Nasiri N, Di Bernardo I, Tran-Phu T, Shrestha A, Chen H, Taheri M, Qi S, Zhang Y, Mulmudi HK, Lipton-Duffin J, Gaspera ED, and Tricoli A

Abstract

Transparent conductive oxides (TCOs) are highly desirable for numerous applications ranging from photovoltaics to light-emitting diodes and photoelectrochemical devices. Despite progress, it remains challenging to fabricate porous TCOs (pTCOs) that may provide, for instance, a hierarchical nanostructured morphology for the separation of photoexcited hole/electron couples. Here, we present a facile process for the fabrication of porous architectures of aluminum-doped zinc oxide (AZO), a low-cost and earth-abundant transparent conductive oxide. Three-dimensional nanostructured films of AZO with tunable porosities from 10 to 98% were rapidly self-assembled from flame-made nanoparticle aerosols. Successful Al doping was confirmed by X-ray photoemission spectroscopy, high-resolution transmission electron microscopy, elemental mapping, X-ray diffraction, and Fourier transform infrared spectroscopy. An optimal Al-doping level of 1% was found to induce the highest material conductivity, while a higher amount led to partial segregation and formation of aluminum oxide domains. A controllable semiconducting to conducting behavior with a resistivity change of more than 4 orders of magnitudes from about 3 × 10 2 to 9.4 × 10 6 Ω cm was observed by increasing the AZO film porosity from 10 to 98%. While the denser AZO morphologies may find immediate application as transparent electrodes, we demonstrate that the ultraporous semiconducting layers have potential as a light-driven gas sensor, showing a high response of 1.92-1 ppm of ethanol at room temperature. We believe that these tunable porous transparent conductive oxides and their scalable fabrication method may provide a highly performing material for future optoelectronic devices.

Published

2020

26. Room-temperature photodetectors and VOC sensors based on graphene oxide-ZnO nano-heterojunctions.

Author

Pargoletti E, Hossain UH, Di Bernardo I, Chen H, Tran-Phu T, Lipton-Duffin J, Cappelletti G, and Tricoli A

Abstract

The rapid development of smart wearable electronics is driving the engineering of novel miniaturized sensing materials that can rapidly respond to very small changes in the concentration of biomarkers at room temperature. Carbon-based nanomaterials offer numerous attractive properties such as low resistivity, good mechanical robustness and integration potential, but lack a strong detection and transduction mechanism for the measurement of chemical molecules or photons. Here, we present a three-dimensional nanostructured architecture comprising optimally integrated graphene oxide (GO)-ZnO heterojunctions for the room temperature sensing of volatile biomarkers. We show that this layout also provides excellent response to UV light showcasing its applicability as a visible-blind photodetector. Notably, the optimal integration of well-dispersed GO nanodomains in a 3D ZnO network significantly enhances the room-temperature chemical sensitivity and light responsivity, while higher GO contents drastically worsen the material performance. This is attributed to the different roles of GO at low and high contents. Small amounts of GO lead to the formation of electron depleted nano-heterojunctions with excellent electron-hole separation efficiency. In contrast, large amounts of GO form a percolating electrical network that inhibits the light and chemical-sensing properties of the ZnO nanoparticles. Our optimal GO-ZnO demonstrates 33 A W -1 responsivity to UV light as well as the room temperature detection of volatile organic compounds down to 100 ppb. We believe that these findings provide guidelines for the future engineering of hybrid carbon-metal oxide devices for applications extending from optoelectronics to chemical sensing and electrocatalysis.

Published

2019

27. Anxiety disorders anticipate the diagnosis of bipolar disorder in comorbid patients: Findings from an Italian tertiary clinic.

Author

Caricasole V, Di Bernardo I, Varinelli A, Galimberti C, Zanello R, Bosi M, Ketter TA, Viganò CA, and Dell'Osso B

Subjects

Comorbidity, Diagnostic and Statistical Manual of Mental Disorders, Female, Humans, Italy epidemiology, Male, Middle Aged, Outpatients psychology, Prevalence, Retrospective Studies, Anxiety Disorders epidemiology, Bipolar Disorder epidemiology, Substance-Related Disorders epidemiology

Abstract

Background: Studies indicate bipolar disorder (BD) syndromal symptoms are commonly preceded by sub-syndromal BD symptoms, dysregulated sleep, irritability, and anxiety. We aimed to evaluate prevalence and clinical correlates of anxiety disorders (ADs) at BD onset in outpatients with versus without at least one AD at BD onset., Methods: 246 bipolar spectrum outpatients, according to the text revision of the fourth edition of the American Psychiatric Association's Diagnostic and Statistical Manual of Mental Disorders (DSM- IV-TR), attending Sacco University Hospital in Milan, were recruited and their onset and clinical features assessed retrospectively. Patients were stratified into those with versus without an AD at BD onset (w/A and wo/A), according to a semi-structured clinical interview to provide diagnoses according to (DSM- IV-TR)., Results: 29% of patients reported being w/A, among whom Panic Disorder (PD, in 55.6%) was the most frequent AD, and first AD occurred approximately 4 years before BD diagnosis. Patients w/A versus wo/A had higher (p < 0.05) rates of BDII and first mood episode being depression versus elevation (mania/hypomania), and lifetime rates of separation anxiety disorder, substance poly-abuse and benzodiazepine abuse. In contrast, patients wo/A had higher lifetime rates of alcohol and illicit drug use., Conclusion: In this naturalistic sample, ADs, in particular PD, preceded BD in almost 1/3 of BD outpatients, and had distinctive clinical correlates. Further investigation into relationships between BD and AD at onset may enhance early BD diagnosis and treatment., (Copyright © 2019. Published by Elsevier B.V.)

Published

2019

28. Aripiprazole causing false positive urine amphetamine drug screen in an adult patient with bipolar disorder.

Author

Caricasole V, Spagnolo G, Di Bernardo I, Cirnigliaro G, Piccoli E, and Dell'Osso B

Subjects

Adult, Antipsychotic Agents therapeutic use, Aripiprazole therapeutic use, Bipolar Disorder drug therapy, False Positive Reactions, Female, Humans, Amphetamines urine, Antipsychotic Agents urine, Aripiprazole urine, Bipolar Disorder urine, Substance Abuse Detection statistics & numerical data

Abstract

There has been only a few reports regarding aripiprazole causing false positive urine amphetamine drug screens, exclusively on children accidently ingesting aripiprazole. Herein, we present the first reported case of a 40 year old woman affected by Bipolar I Disorder, treated with aripirazole at therapeutic oral dose ranging from 15 mg/day to 30 mg/day, in the context of a depressive episode with mixed and psychotic features, showing a false positive urine amphetamine drug screen. We document the relationship between aripiprazole-dose, plasma concentration and amphetamines values in toxicologic urine examinations over time. Awareness of potential false positive urine amphetamine drug screens during aripiprazole treatment can condition therapeutic choices and prevent legal implications., (Copyright © 2019. Published by Elsevier Inc.)

Published

2019

29. Postpartum Bleeding in Pregnant Women Receiving SSRIs/SNRIs: New Insights From a Descriptive Observational Study and an Analysis of Data from the FAERS Database.

Author

Perrotta C, Giordano F, Colombo A, Carnovale C, Castiglioni M, Di Bernardo I, Giorgetti F, Pileri P, Clementi E, and Viganò C

Subjects

Adolescent, Adult, Antidepressive Agents blood, Databases, Factual, Female, Humans, Middle Aged, Odds Ratio, Postpartum Period, Pregnancy, Selective Serotonin Reuptake Inhibitors blood, Serotonin and Noradrenaline Reuptake Inhibitors blood, Young Adult, Antidepressive Agents therapeutic use, Postpartum Hemorrhage epidemiology, Selective Serotonin Reuptake Inhibitors therapeutic use, Serotonin and Noradrenaline Reuptake Inhibitors therapeutic use

Abstract

Purpose: To date, the available data on the relationship between the use of selective serotonin reuptake inhibitors (SSRIs) or the serotonin and norepinephrine reuptake inhibitor (SNRI) venlafaxine and postpartum hemorrhage (PPH) are conflicting and have not been extensively investigated, especially in terms of plasma drug concentrations. We performed data mining of antidepressant-induced PPH reported to the US Food and Drug Administration's Adverse Event Reporting System database, to assess the strength of the potential association between antidepressant pharmacotherapy and PPH in pregnant women. Concurrently, we carried out a descriptive observational population (pregnant women) analysis of the correlation between the plasma concentrations of SSRIs/SNRIs used during pregnancy and the extent of bleeding at delivery., Methods: A disproportionality analysis of individual case study reports of PPH associated with SSRIs or venlafaxine in pregnant women was performed. Reporting odds ratio was used as a measure of disproportionality analysis. Pregnant women treated with an SSRI or SNRI (venlafaxine) for depressive or anxiety disorder and who consented to plasma drug concentration monitoring at the time of delivery were recruited. Plasma drug concentration assay was performed according to validated LC-MS/MS. Based on plasma drug concentrations, patients were classified into 1 of 2 groups, in therapeutic range or below therapeutic range for the drug administered, in accordance with the Arbeitsgemeinschaft für Neuropsychopharmakologie und Pharmakopsychiatrie guideline, and correlations with blood loss were identified, with PPH defined as a blood loss of >500 mL., Findings: Only 43 Individual Case Safety Reports (ICSRs) reported at least one SSRIs or venlafaxine as suspect drug in 14 years (database analyses). Forty-three women were enrolled in the study population (observational study). In 24 patients (55.8%) the plasma drug concentration was below the therapeutic threshold. Unexpectedly, the mean blood loss in the below-range group was significantly higher than that in the in-range group. PPH occurred in 30% of women: in 9.3% and in 20.7% of patients in the in-range and below-range groups, respectively., Implications: Although preliminary, these data indicate a rather good tolerability profile of SSRIs/SNRIs regarding postpartum bleeding. Moreover, they suggest that keeping the plasma levels of SSRIs/SNRIs low as a precautionary measure does not reduce postpartum bleeding, which was higher in the below-range group. The findings from this study suggest that the use of therapeutic drug monitoring in pregnancy, a period in which multiple variables affect drug metabolism, may allow for better treatment customization, with subsequent advantages in terms of tolerability and efficacy of treatment., (Copyright © 2019. Published by Elsevier Inc.)

Published

2019

30. Metal-Organic Frameworks/Conducting Polymer Hydrogel Integrated Three-Dimensional Free-Standing Monoliths as Ultrahigh Loading Li-S Battery Electrodes.

Author

Liu B, Bo R, Taheri M, Di Bernardo I, Motta N, Chen H, Tsuzuki T, Yu G, and Tricoli A

Abstract

The lithium-sulfur (Li-S) system is a promising material for the next-generation of high energy density batteries with application extending from electrical vehicles to portable devices and aeronautics. Despite progress, the energy density of current Li-S technologies is still below that of conventional intercalation-type cathode materials due to limited stability and utilization efficiency at high sulfur loading. Here, we present a conducting polymer hydrogel integrated highly performing free-standing three-dimensional (3D) monolithic electrode architecture for Li-S batteries with superior electrochemical stability and energy density. The electrode layout consists of a highly conductive three-dimensional network of N,P codoped carbon with well-dispersed metal-organic framework nanodomains of ZIF-67 and HKUST-1. The hierarchical monolithic 3D carbon networks provide an excellent environment for charge and electrolyte transport as well as mechanical and chemical stability. The electrically integrated MOF nanodomains significantly enhance the sulfur loading and retention capabilities by inhibiting the release of lithium polysulfide specificities as well as improving the charge transfer efficiency at the electrolyte interface. Our optimal 3D carbon-HKUST-1 electrode architecture achieves a very high areal capacity of >16 mAh cm -2 and volumetric capacity ( C V ) of 1230.8 mAh cm -3 with capacity retention of 82% at 0.2C for over 300 cycles, providing an attractive candidate material for future high-energy density Li-S batteries.

Published

2019

31. On-surface synthesis of polyethylenedioxythiophene.

Author

Di Bernardo I, Hines P, Abyazisani M, Motta N, MacLeod J, and Lipton-Duffin J

Abstract

On-surface synthesis of conjugated polymers is made challenging by the need to promote the desired reaction while preventing or minimizing unwanted ancillary reactions that compromise the product integrity. We perform a comprehensive study of the reactions of 2,5-dichloro-3,4-ethylenedioxythiophene on coinage metal surfaces, and demonstrate that only on Ag(111) can we obtain a planar polymer product, polyethylenedioxythiophene (PEDOT).

Published

2018

32. Two-Dimensional Hallmark of Highly Interconnected Three-Dimensional Nanoporous Graphene.

Author

Di Bernardo I, Avvisati G, Mariani C, Motta N, Chen C, Avila J, Asensio MC, Lupi S, Ito Y, Chen M, Fujita T, and Betti MG

Abstract

Scaling graphene from a two-dimensional (2D) ideal structure to a three-dimensional (3D) millimeter-sized architecture without compromising its remarkable electrical, optical, and thermal properties is currently a great challenge to overcome the limitations of integrating single graphene flakes into 3D devices. Herewith, highly connected and continuous nanoporous graphene (NPG) samples, with electronic and vibrational properties very similar to those of suspended graphene layers, are presented. We pinpoint the hallmarks of 2D ideal graphene scaled in these 3D porous architectures by combining the state-of-the-art spectromicroscopy and imaging techniques. The connected and bicontinuous topology, without frayed borders and edges and with low density of crystalline defects, has been unveiled via helium ion, Raman, and transmission electron microscopies down to the atomic scale. Most importantly, nanoscanning photoemission unravels a 3D NPG structure with preserved 2D electronic density of states (Dirac cone like) throughout the porous sample. Furthermore, the high spatial resolution brings to light the interrelationship between the topology and the morphology in the wrinkled and highly bent regions, where distorted sp 2 C bonds, associated with sp 3 -like hybridization state, induce small energy gaps. This highly connected graphene structure with a 3D skeleton overcomes the limitations of small-sized individual graphene sheets and opens a new route for a plethora of applications of the 2D graphene properties in 3D devices., Competing Interests: The authors declare no competing financial interest.

Published

2017