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1. Defect engineering over anisotropic brookite towards substrate-specific photo-oxidation of alcohols

Author

Hejazi, S. M. Hossein, Shahrezaei, Mahdi, Błoński, Piotr, Allieta, Mattia, Sheverdyaeva, Polina M., Moras, Paolo, Baďura, Zdeněk, Kalytchuk, Sergii, Mohammadi, Elmira, Zbořil, Radek, Kment, Štěpán, Otyepka, Michal, Naldoni, Alberto, and Fornasiero, Paolo

Subjects
Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

Generally adopted design strategies for enhancing the photocatalytic activity are aimed at tuning properties such as the visible light response, the exposed crystal facets, and the nanocrystal shape. Here, we present a different approach for designing efficient photocatalysts displaying a substrate-specific reactivity upon defect engineering. The defective anisotropic brookite TiO2 photocatalyst functionalized with Pt nanocrystals are tested for alcohol photoreforming showing up to an 11-fold increase in methanol oxidation rate, compared to the unreduced one, whilst presenting much lower ethanol or isopropanol specific oxidation rates. We demonstrate that the alcohol oxidation and hydrogen evolution reactions are tightly related, and when the substrate-specific alcohol oxidation ability is increased, the hydrogen evolution is significantly boosted. The reduced anisotropic brookite shows up to twenty-six-fold higher specific photoactivity with respect to anatase and brookite with isotropic nanocrystals, reflecting the different type of defective catalytic sites formed depending on the TiO2 polymorph and its crystal shape. Advanced in-situ characterizations and theoretical investigations reveal that controlled engineering over oxygen vacancies and lattice strain produces large electron polarons hosting the substrate-specific active sites for alcohol photo-oxidation.

Published
2023
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2. Well-defined Cu$_2$O photocatalysts for solar fuels and chemicals

Author

Rej, Sourav, Bisetto, Matteo, Naldoni, Alberto, and Fornasiero, Paolo

Subjects
Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

The shape-controlled synthesis of cuprous oxide (Cu$_2$O) photocatalysts with both low or high index crystal planes has received increasing attention due to their unique facet-dependent properties. Since they are cheap and earth abundant, these well-defined Cu$_2$O nanostructures are extensively used for different photocatalytic reactions, also because of their strong visible light absorption capability. However, further development will be still needed to enhance the efficiency and photostability of Cu$_2$O, which still limits its industrial application. We start this review by summarizing the synthetic advancement in the facet engineering of Cu$_2$O and other associated hybrid Cu$_2$O-based heterostructures with a special emphasis put on their growth mechanism. We then discuss different facet-dependent properties, which are relevant to photocatalysis. In the subsequent section, we present a critical discussion on the photocatalytic performance of faceted Cu$_2$O nanostructures during organic synthesis, hydrogen production, and carbon dioxide photoreduction. The relation between photocatalytic efficiency and product selectivity with exposed crystal facets or with different composition of hybrid nanostructures is also discussed. Finally, important strategies are proposed to overcome the photostability issue, while outlining the course of future development to further boost the technological readiness of well-defined Cu$_2$O-based photocatalysts.

Published
2022
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3. Additive Manufacturing for the Circular Built Environment: Towards Circular Construction with Earth-Based Materials

Author

Chadha, Kunaljit, Dubor, Alexandre, Cabay, Edouard, Tayoun, Yara, Naldoni, Lapo, Moretti, Massimo, Stefanakis, Alexandros, Series Editor, Nikolaou, Ioannis, Series Editor, Kirchherr, Julian, Editorial Board Member, Komilis, Dimitrios, Editorial Board Member, Pan, Shu Yuan, Editorial Board Member, Salomone, Roberta, Editorial Board Member, De Wolf, Catherine, editor, Çetin, Sultan, editor, and Bocken, Nancy M. P., editor

Published
2024
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4. Colloidal Titanium Nitride Nanobars for Broadband Inexpensive Plasmonics and Photochemistry from Visible to Mid-IR Wavelengths

Author

Rej, Sourav, Santiago, Eva Yazmin, Baturina, Olga, Zhang, Yu, Burger, Sven, Kment, Stepan, Govorov, Alexander O., and Naldoni, Alberto

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Developing colloidal plasmonic nanomaterials with high carrier density that show optical resonances and photochemical activity extending from the visible to the mid-infrared (MIR) ranges remains a challenging pursuit. Here, we report the fabrication of titanium nitride (TiN) nanobars obtained using a two step procedure based on a wet chemical route synthesis of TiO2 nanowires and their subsequent high temperature annealing in ammonia flow. Electromagnetic simulations of the resulting TiN nanobars reveal a rich set of optical resonances featuring transverse, longitudinal and mixed transverse longitudinal plasmonic modes that cover energies from the visible to MIR region. TiN nanobars decorated with Pt co catalyst nanocrystals show enhanced photocatalytic hydrogen evolution activity in comparison to both isotropic TiN nanospheres of similar size and TiN nanocubes under near infrared excitation at 940 nm due to the enhanced hot electron generation. We also demonstrate that plasmonic TiN nanobars can be used for the detection of furfural molecular vibrations by providing a strong surface enhanced infrared absorption (SEIRA) effect in the MIR region., Comment: 78 pages, 4 Figures main article, 39 Figures for Supporting Information

Published
2022
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5. Black TiO2 and Oxygen Vacancies: Unraveling the Role in the Thermal Anatase-to-Rutile Transformation

Author

Mattia Allieta, Mauro Coduri, and Alberto Naldoni

Subjects
TiO2, P25, black TiO2, renewable energy photocatalysis, Rietveld refinement, Technology
Abstract

Understanding the role of oxygen vacancies in the phase transformation of metal oxide nanomaterials is fundamental to design more efficient opto-electronic devices for a variety of applications, including sensing, spintronics, photocatalysis, and photo-electrochemistry. However, the structural mechanisms behind the phase transformation in reducible oxides remain poorly described. Here, we compare P25 and black TiO2 during the thermal anatase-to-rutile transformation using in situ synchrotron powder diffraction. The precise measurement of the phase fractions, unit cell parameters, and Ti-O bond sheds light on the phase transformation dynamics. Notably, we observe distinct temperature-dependent shifts in the relative phase fractions of anatase and rutile in both materials highlighting the role of the oxygen vacancy in promoting the phase transformation. We employ bond valence concepts for structural modeling, revealing unique trends in temperature evolution of Ti-O distances of black rutile, confirming that this TiO2 phase is preferentially reduced over anatase. These findings not only enhance our understanding of phase transitions in TiO2 but also open new ways for the design of advanced photocatalytic materials through targeted phase control.

Published
2024
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7. Presence and Role of Associations of Cancer Patients and Volunteers in Specialist Breast Centres: An Italian National Survey of Breast Centres Associated with Senonetwork

Author

Rosanna D’Antona, Silvia Deandrea, Elisabetta Sestini, Loredana Pau, Francesca Ferrè, Catia Angiolini, Marina Bortul, Lauro Bucchi, Francesca Caumo, Lucio Fortunato, Livia Giordano, Monica Giordano, Paola Mantellini, Irene Martelli, Giuseppe Melucci, Carlo Naldoni, Eugenio Paci, Gianni Saguatti, Corrado Tinterri, Milena Vainieri, and Luigi Cataliotti

Subjects
breast cancer, breast centre, associations, patients, volunteers, survey, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

This article aims to present the results of a national, cross-sectional, voluntary, online survey on the presence and roles of associations of breast cancer patients and volunteers in Italian specialist breast centres. The survey was developed according to standard methods. The questionnaire was pre-tested by a random sample of three breast centres, loaded onto the SurveyMonkey platform, and piloted by one volunteer breast centre. The breast centre clinical leads were invited to participate via email. A link to the online instrument was provided. No financial incentives were offered. The results were reported using standard descriptive statistics. The response rate was 82/128 (65%). Members of associations were routinely present in 70% Italian breast centres. Breast centres most often reporting their presence were those certified by the European Society of Breast Cancer Specialists. Patient support (reception and information, listening, identification of needs, and psychological support) was the primary area where associations were reported to offer services. The magnitude of this phenomenon warrants a study to investigate the impact of the activities of associations on the quality of life of patients and on the cost–benefit ratio of the service, and the modes of their interactions with the nursing staff and the medical staff.

Published
2023
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11. Lattice small polarons and magnetic interactions drive preferential nanocrystal growth in silicon doped hematite

Author

Allieta, Mattia, Marelli, Marcello, Coduri, Mauro, Stefan, Mariana, Ghica, Daniela, Morello, Giorgio, Malara, Francesco, and Naldoni, Alberto

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Understanding the interplay between the structural, chemical and physical properties of nanomaterials is crucial for designing new devices with enhanced performance. In this regards, doping of metal oxides is a general strategy to tune size, morphology, charge, lattice, orbital and spin degrees of freedoms and has been shown to affect nanomaterials properties for photoelectrochemical water splitting, batteries, catalysis, magnetic applications and optics. Here we report the role of lattice small polaron in driving the morphological transition from nearly isotropic to nanowire crystals in Si doped hematite ($\alpha-Fe_2O_3$). Lattice small polaron formation is well evidenced by the increase of hexagonal strain and degree of distortion of $FeO_6$ showing a hyperbolic trend with increasing Si content. Local analysis via pair distribution function highlights an unreported crossover from small to large polarons, which affects the correlation length of the polaronic distortion from short to average scales. Ferromagnetic double exchange interactions between $Fe^{2+}/Fe^{3+}$ species is found to be the driving force of the crossover, constraining the chaining of chemical bonds along the [110] crystallographic direction. This promotes the increase in the reticular density of Fe atoms along the hematite basal plane only, which boosts the anisotropic growth of nanocrystals with more extended [110] facets. Our results show that magnetic and electronic interactions drive preferential crystallographic growth in doped metal oxides, thus providing a new route to design their functional properties.

Published
2019

12. Introduction to Regge Calculus for Gravitation

Author

Cuzinatto, R. R., de Melo, C. A. M., and de Souza, C. Naldoni

Subjects
General Relativity and Quantum Cosmology, High Energy Physics - Theory, Physics - Popular Physics
Abstract

With the theory of general relativity, Einstein abolished the interpretation of gravitation as a force and associated it to the curvature of spacetime. Tensorial calculus and differential geometry are the mathematical resources necessary to study the spacetime manifold in the context of Einstein's theory. In 1961, Tullio Regge published a work on which he uses the old idea of triangulation of surfaces aiming the description of curvature, and, therefore, gravitation, through the use of discrete calculus. In this paper, we approach Regge Calculus pedagogically, as well as the main results towards a discretized version of Einstein's theory of gravitation., Comment: 27 pages, 16 figures

Published
2019

14. Contributors

Author

Alagöz, Oğuzhan, primary, Altomare, Marco, additional, Augugliaro, Vincenzo, additional, Bellardita, Marianna, additional, Bessegato, Guilherme Garcia, additional, Bestetti, Massimiliano, additional, Brito, Juliana Ferreira de, additional, Durante, Christian, additional, Erbil, Mehmet, additional, Fedel, Michele, additional, Franz, Silvia, additional, Loddo, Vittorio, additional, Mais, Laura, additional, Marschall, Roland, additional, Mazzucato, Marco, additional, Naldoni, Alberto, additional, Nguyen, Nhat Truong, additional, Özcan, Levent, additional, Palmas, Simonetta, additional, Palmisano, Leonardo, additional, Parrino, Francesco, additional, Scirè, Salvatore, additional, Sığırcık, Gökmen, additional, Tüken, Tunç, additional, Vacca, Annalisa, additional, Yurdakal, Sedat, additional, and Zanoni, Maria Valnice Boldrin, additional

Published
2023
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15. Sustainable Regenerative Strategies for the Inner Areas: An Example of 'Civic Design' in Marradi (Tuscany)

Author

Alberti, Francesco, Di Silvio, Sabine, Massini, Ilaria, Naldoni, Sara, Scortecci, Simone, Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, O. Gawad, Iman, Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Alberti, Francesco, editor, Gallo, Paola, editor, Galderisi, Adriana, editor, and Strauss, Eric, editor

Published
2022
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17. Effects of Attendance to an Organized Fecal Immunochemical Test Screening Program on the Risk of Colorectal Cancer: An Observational Cohort Study

Author

Finarelli, Alba Carola, Landi, Patrizia, Mezzetti, Francesca, Naldoni, Carlo, Sassoli de Bianchi, Priscilla, Ferretti, Stefano, Baldacchini, Flavia, Bucchi, Lauro, Giuliani, Orietta, Mancini, Silvia, Ravaioli, Alessandra, Zamagni, Federica, Vattiato, Rosa, Balducci, Chiara, Vitali, Benedetta, Falcini, Fabio, Aragona, Giovanni, Chiaranda, Giorgio, Penini, Francesca, Seghini, Pietro, Dalla Fiora, Cristian, Fattibene, Claudio, Maradini, Fabio, Orsi, Paolo, Benedetta Giannino, Giada Maria, Michiara, Maria, Giorgi Rossi, Paolo, Mangone, Lucia, Campari, Cinzia, Paterlini, Luisa, Sassatelli, Romano, Carrozzi, Giuliano, Gianfranco, De Girolamo, Esposito, Pasqualina, Rossi, Federica, Trande, Paolo, Viani, Simona, Cirilli, Claudia, Bazzani, Carmen, Bazzoli, Franco, Cennamo, Vincenzo, Giansante, Chiara, Gualandi, Giovanna, Manfredi, Marilena, Pasquini, Adriana, Caprara, Licia, De Lillo, Margherita, De Togni, Aldo, Palmonari, Caterina, Pasquali, Daniela, Zoli, Giorgio, Dal Re, Serena, Petrini, Chiara, Serafini, Monica, Triossi, Omero, Gallinucci, Mara, Imolesi, Claudia, Palazzi, Mauro, Canuti, Debora, Casale, Coralba, Giovanardi, Mauro, Trombetti, Daniele, Fabbri, Carlo, and Strocchi, Enrico

Published
2022
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19. Integrating mammography screening programmes into specialist breast centres in Italy: insights from a national survey of Senonetwork breast centres

Author

Deandrea, Silvia, Ferrè, Francesca, D’Antona, Rosanna, Angiolini, Catia, Bortul, Marina, Bucchi, Lauro, Caumo, Francesca, Fortunato, Lucio, Giordano, Livia, Giordano, Monica, Mantellini, Paola, Martelli, Irene, Melucci, Giuseppe, Naldoni, Carlo, Paci, Eugenio, Pau, Loredana, Saguatti, Gianni, Sestini, Elisabetta, Tinterri, Corrado, Vainieri, Milena, and Cataliotti, Luigi

Published
2022
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20. Integrating mammography screening programmes into specialist breast centres in Italy: insights from a national survey of Senonetwork breast centres

Author

Silvia Deandrea, Francesca Ferrè, Rosanna D’Antona, Catia Angiolini, Marina Bortul, Lauro Bucchi, Francesca Caumo, Lucio Fortunato, Livia Giordano, Monica Giordano, Paola Mantellini, Irene Martelli, Giuseppe Melucci, Carlo Naldoni, Eugenio Paci, Loredana Pau, Gianni Saguatti, Elisabetta Sestini, Corrado Tinterri, Milena Vainieri, and Luigi Cataliotti

Subjects
Mammography screening, Breast centre, Health services integration, UTAUT, Survey, Public aspects of medicine, RA1-1270
Abstract

Abstract Background Despite recommendations, mammography screening is often insufficiently integrated into specialist breast centres. A national, cross-sectional, voluntary, online survey on this issue was carried out among the Italian breast centres associated with Senonetwork, the Italian network of breast cancer services. Methods A 73-item questionnaire was created, pre-tested and piloted. Centres integrating and not integrating a screening programme were compared using the unified theory of acceptance and use of technology (UTAUT) model. Centres’ clustering was performed using the Gower’s distance metric. Groups and clusters were compared with the equality-of-means test. Results The response rate was 82/128 (65%). Overall, 84% (69/82) breast centres reported a collaboration with a screening programme in performing and/or reading mammograms and in the diagnostic work-up of women with abnormal screening results. The same proportion was observed among those centres responding to all questions (62/74). Performance expectancies (or the perceived usefulness of integration in terms of clinical quality, patient convenience, ease of job, and professional growth), satisfaction and motivation were higher in those centres collaborating with the screening programme. Effort expectancy indicators (or the degree to which the respondents believe that the integration is easy to implement) and those concerning the existence of facilitating conditions were lower both in centres collaborating and not collaborating with the screening programme. Among the former, six clusters of centres, distributed from ‘no integration’ to ‘high’, were identified. In cluster analysis, the highest level of integration was associated with higher agreement that integration eases the job, offers better opportunities for professional growth, and makes the working environment more satisfactory. The least integrated cluster assigned the lowest score to the statement that local health authority made available the resources needed. Conclusions While confirming the positive effects of integrating screening programmes into breast centres, this survey has brought to light specific difficulties that must be faced. The results provide insights into the importance of integration focusing on the perspectives of professional career and motivation. The deficiency of facilitating conditions to integration is modifiable. Screening professionals’ societies may have a role as initiators of the integration. Other supporting actions may be included in health laws at the national and regional level.

Published
2022
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21. Challenges and prospects of plasmonic metasurfaces for photothermal catalysis

Author

Mascaretti Luca, Schirato Andrea, Fornasiero Paolo, Boltasseva Alexandra, Shalaev Vladimir M., Alabastri Alessandro, and Naldoni Alberto

Subjects
gas phase, photocatalysis, photothermal catalysis, plasmonic metasurfaces, solar fuels, Physics, QC1-999
Abstract

Solar-thermal technologies for converting chemicals using thermochemistry require extreme light concentration. Exploiting plasmonic nanostructures can dramatically increase the reaction rates by providing more efficient solar-to-heat conversion by broadband light absorption. Moreover, hot-carrier and local field enhancement effects can alter the reaction pathways. Such discoveries have boosted the field of photothermal catalysis, which aims at driving industrially-relevant chemical reactions using solar illumination rather than conventional heat sources. Nevertheless, only large arrays of plasmonic nano-units on a substrate, i.e., plasmonic metasurfaces, allow a quasi-unitary and broadband solar light absorption within a limited thickness (hundreds of nanometers) for practical applications. Through moderate light concentration (∼10 Suns), metasurfaces reach the same temperatures as conventional thermochemical reactors, or plasmonic nanoparticle bed reactors reach under ∼100 Suns. Plasmonic metasurfaces, however, have been mostly neglected so far for applications in the field of photothermal catalysis. In this Perspective, we discuss the potentialities of plasmonic metasurfaces in this emerging area of research. We present numerical simulations and experimental case studies illustrating how broadband absorption can be achieved within a limited thickness of these nanostructured materials. The approach highlights the synergy among different enhancement effects related to the ordered array of plasmonic units and the efficient heat transfer promoting faster dynamics than thicker structures (such as powdered catalysts). We foresee that plasmonic metasurfaces can play an important role in developing modular-like structures for the conversion of chemical feedstock into fuels without requiring extreme light concentrations. Customized metasurface-based systems could lead to small-scale and low-cost decentralized reactors instead of large-scale, infrastructure-intensive power plants.

Published
2022
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26. Real‐Time Detection of Coherent Vibrational Dynamics in TiN Films.

Author

Iudica, Andrea, Rotta Loria, Silvia, Mancarella, Cristina, Mascaretti, Luca, Naldoni, Alberto, Cerullo, Giulio, Li Bassi, Andrea, and Zavelani‐Rossi, Margherita

Subjects
TITANIUM nitride, REFLECTANCE spectroscopy, PHONONS, EXCITED states, PLASMONICS
Abstract

Titanium nitride (TiN) has recently gained considerable interest because of its remarkable plasmonic properties and for its strong electron–phonon (e–ph) coupling, leading to extremely fast (<100 fs) electron‐lattice cooling. Here, the generation of coherent phonons in TiN films is reported, along with their real‐time detection by means of broadband transient reflection spectroscopy with sub‐15‐fs temporal resolution. The measurements show damped oscillations, superimposed to excited state electronic decay. A coherent vibrational mode is revealed, with ≈10 THz frequency ascribed to defect‐activated normal modes, consistent with spontaneous Raman scattering data, and a dephasing time of ≈250 fs. Two π‐phase flips are also observed located at photon energies corresponding to interband optical transitions (at 3.2 and 2.5 eV), ascribed to selective coupling of the vibrational mode to these transitions; the energy modulation induced by the vibrational coherence is evaluated. It is shown that the displacive excitation of coherent phonons model describes the coherent response in terms of temporal behavior and of spectral amplitude profile. Overall, a comprehensive and detailed analysis of coherent phonons in TiN films, so far undected, is provided and relevant information on TiN photo‐physical properties, potentially useful for its applications, is given. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Band engineering in iron and silver co-doped double perovskite nanocrystals for selective photocatalytic CO2 reduction.

Author

Ahmad, Razi, Zhang, Yu, Navrátil, Jan, Błoński, Piotr, Zdraηil, Lukáš, Kalytchuk, Sergii, Naldoni, Alberto, Rogach, Andrey L., Otyepka, Michal, Zboril, Radek, and Kment, Štěpán

Abstract

Double metal cation halide perovskites are promising alternatives to lead halide perovskites due to their exceptional compositional flexibility and stability. However, their utilization in solar-light harvesting applications has been hindered by their large band gap and the complexity of producing doped or alloyed materials with desirable optoelectronic properties. In this study, we report the colloidal synthesis of iron-doped Cs2NaInCl6 double perovskite nanocrystals (NCs), leading to a significant extension of the absorption edge from 330 nm to 505 nm. We also demonstrate that simultaneous doping with Fe3+ and Ag+ ions allows significant reduction of the optical band gap and precise tuning of electronic band structures of the resulting NCs. The enhanced absorption in the visible region is attributed to the substitution of In-5s by the Fe-3d state, while the introduction of the Ag 4d state upshifts the valence band maximum, inducing a transformative change in the band structure, as confirmed by density functional theory (DFT) calculations. Remarkably, by precisely controlling the band positions of the Fe3+-doped Cs2Ag0.5Na0.5InCl6 NCs, we accomplished the selective photocatalytic reduction of CO2 into CH4, making them readily available for solar-energy conversion technologies. [ABSTRACT FROM AUTHOR]

Published
2024
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29. de Broglie-Proca and Bopp-Podolsky massive photon gases in cosmology

Author

Cuzinatto, R. R., de Morais, E. M., Medeiros, L. G., de Souza, C. Naldoni, and Pimentel, B. M.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

We investigate the influence of massive photons on the evolution of the expanding universe. Two particular models for generalized electrodynamics are considered, namely de Broglie-Proca and Bopp-Podolsky electrodynamics. We obtain the equation of state (EOS) $P=P(\varepsilon)$ for each case using dispersion relations derived from both theories. The EOS are inputted into the Friedmann equations of a homogeneous and isotropic space-time to determine the cosmic scale factor $a(t)$. It is shown that the photon non-null mass does not significantly alter the result $a\propto t^{1/2}$ valid for a massless photon gas; this is true either in de Broglie-Proca's case (where the photon mass $m$ is extremely small) or in Bopp-Podolsky theory (for which $m$ is extremely large)., Comment: 8 pages, 2 figures; v2 matches the published version

Published
2016
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30. Enhancing Hot Carrier Collection for Solar Water Splitting with Plasmonic Titanium Nitride

Author

Naldoni, Alberto, Guler, Urcan, Wang, Zhuoxian, Marelli, Marcello, Malara, Francesco, Meng, Xiangeng, Kildishev, Alexander V., Boltasseva, Alexandra, and Shalaev, Vladimir M.

Subjects
Condensed Matter - Materials Science
Abstract

The use of hot electrons generated from the decay of surface plasmons is a new paradigm to increase the conversion yield in solar energy technologies. Titanium nitride (TiN) is an emerging plasmonic ceramic that offers compatibility with CMOS technology, corrosion resistance, as well as mechanical strength and durability thus outperforming noble metals (i.e., Au, Ag) in terms of cost, mechanical, chemical and thermal stability. Here, we show that plasmonic TiN nanoparticles produce 25% higher photocurrent enhancement than Au nanoparticles decorated on TiO2 nanowires for photoelectrochemical water splitting. Our results highlight that TiN offers superior performance in hot carrier generation due to enhanced absorption efficiency, increased electron mean free path, and the ability to form an Ohmic junction with TiO2, thus enabling an extremely efficient electron collection not achievable with plasmonic Au nanoparticles. Our findings show that transition metal nitrides enable practical plasmonic devices with enhanced performance for solar energy conversion., Comment: 31 pages (Manuscript+Supporting Information), 4 figures, 13 supplementary figures

Published
2016

36. CO 2 Electroreduction by Engineering the Cu 2 O/RGO Interphase.

Author

Bisetto, Matteo, Rej, Sourav, Naldoni, Alberto, Montini, Tiziano, Bevilacqua, Manuela, and Fornasiero, Paolo

Subjects
COPPER, GRAPHENE oxide, CARBON dioxide, NANOPARTICLES, NANOSTRUCTURED materials
Abstract

In the present investigation, Cu2O-based composites were successfully prepared through a multistep method where cubic Cu2O nanoparticles (CU Cu2O) have been grown on Reduced Graphene Oxide (RGO) nanosheets. The structural and morphological properties of the materials have been studied through a comprehensive characterization, confirming the coexistence of crystalline Cu2O and RGO. Microscopical imaging revealed the intimate contact between the two materials, affecting the size and the distribution of Cu2O nanoparticles on the support. The features of the improved morphology strongly affected the electrochemical behavior of the composites, increasing the activity and the faradaic efficiencies towards the electrochemical CO2 reduction reaction process. CU Cu2O/RGO 2:1 composite displayed selective CO formation over H2, with higher currents compared to pristine Cu2O (−0.34 mA/cm2 for Cu2O and −0.64 mA/cm2 for CU Cu2O/RGO 2:1 at the voltage of −0.8 vs. RHE and in a CO2 atmosphere) and a faradaic efficiency of 50% at −0.9 V vs. RHE. This composition exhibited significantly higher CO production compared to the pristine materials, indicating a favorable *CO intermediate pathway even at lower voltages. The systematic investigation on the effects of nanostructuration on composition, morphology and catalytic behavior is a valuable solution for the formation of effective interphases for the promotion of catalytic properties providing crucial insights for future catalysts design and applications. [ABSTRACT FROM AUTHOR]

Published
2024
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38. Black TiO 2 and Oxygen Vacancies: Unraveling the Role in the Thermal Anatase-to-Rutile Transformation.

Author

Allieta, Mattia, Coduri, Mauro, and Naldoni, Alberto

Subjects
TITANIUM dioxide, PHASE transitions, METALLIC oxides, UNIT cell, VALENCE bonds, OXYGEN
Abstract

Understanding the role of oxygen vacancies in the phase transformation of metal oxide nanomaterials is fundamental to design more efficient opto-electronic devices for a variety of applications, including sensing, spintronics, photocatalysis, and photo-electrochemistry. However, the structural mechanisms behind the phase transformation in reducible oxides remain poorly described. Here, we compare P25 and black TiO2 during the thermal anatase-to-rutile transformation using in situ synchrotron powder diffraction. The precise measurement of the phase fractions, unit cell parameters, and Ti-O bond sheds light on the phase transformation dynamics. Notably, we observe distinct temperature-dependent shifts in the relative phase fractions of anatase and rutile in both materials highlighting the role of the oxygen vacancy in promoting the phase transformation. We employ bond valence concepts for structural modeling, revealing unique trends in temperature evolution of Ti-O distances of black rutile, confirming that this TiO2 phase is preferentially reduced over anatase. These findings not only enhance our understanding of phase transitions in TiO2 but also open new ways for the design of advanced photocatalytic materials through targeted phase control. [ABSTRACT FROM AUTHOR]

Published
2024
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39. #mycityoftomorrow. A think tank on cities and territories of tomorrow

Author

Francesco Alberti, Stefania Cupillari, Eleonora Giannini, Sara Naldoni, and Lorenzo Nofroni

Subjects
covid-19, public space, digital society, global change, urban resilience, Architecture, NA1-9428
Abstract

The pandemic of Covid-19 represents a chance to rethink the equilibrium of our territories and cities. The sudden revision of rules of social coexistence, the temporary suspension of activities, the modification of everyday gestures, physical public spaces replaced by digital spaces, are only some of the phenomena which happened simultaneously in 2020 due to the pandemic. From the will to reflect in a collective way on the implications of the health emergency on our ways of living, and from the project will to use the crisis as an experimentation field of new practices of sharing and elaboration of future urban scenarios, the campaign #MyCityofTomorrow of the spin-off Urban LIFE (University of Florence) was designed as an online platform of open dialogue on the topics which inform urban design and planning, in its broader sense, a discussion table to orient the restarts towards a more sustainable future.

Published
2020
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43. A regional population‐based hereditary breast cancer screening tool in Italy: First 5‐year results

Author

Laura Cortesi, Bruna Baldassarri, Stefano Ferretti, Elisabetta Razzaboni, Mariangela Bella, Lauro Bucchi, Debora Canuti, Pierandrea De Iaco, Giorgio De Santis, Fabio Falcini, Vania Galli, Lea Godino, Maurizio Leoni, Anna Myriam Perrone, Marco Pignatti, Gianni Saguatti, Donatella Santini, Priscilla Sassoli de'Bianchi, Federica Sebastiani, Mario Taffurelli, Giovanni Tazzioli, Daniela Turchetti, Claudio Zamagni, and Carlo Naldoni

Subjects
hereditary breast ovarian cancer, population‐based screening, Tyrer‐Cuzick model, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Up to 10% of individuals with breast cancer (BC) belong to families with hereditary syndromes. The aim of this study was to develop an instrument to identify individuals/families at high‐hereditary risk for BC and offer dedicated surveillance programs according to different risks. Methods The instrument consisted of a primary questionnaire collecting history of BC and ovarian cancer (OC). This questionnaire was applied to women enrolled in the Emilia‐Romagna Breast Cancer Screening Program. General practitioners (GPs) and specialists could propose the same questionnaire too. Women with a score of ≥ 2, were invited to complete an oncogenetic counseling. According to the Tyrer‐Cuzick evaluation, women considered at high risk were invited to involve the most representative alive individual of the family affected with BC/OC for BRCA1/2 genetic testing. Results Since January 2012 and December 2016, 660 040 women were evaluated by the regional screening program, of which 22 289 (3.5%) were invited to the Spoke evaluation, but only 5615 accepted (25.2%). Totally, also considering women sent by GPs and specialists, 11 667 were assessed and 5554 were sent to the Hub evaluation. Finally, 2342 (42.8%) women fulfilled the criteria for genetic testing, and 544 (23.2%) resulted BRCA1/2 mutation carriers. Conclusions To our knowledge, this is the first regional population‐based multistep model that is aimed to identify individuals with BRCA1/2 mutations and to offer an intensive surveillance program for hereditary‐high risk women. This tool is feasible and effective, even if more efforts must be performed to increase the acceptance of multiple assessments by the study population.

Published
2020
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49. Determining the role of Pd catalyst morphology and deposition criteria over large area plasmonic metasurfaces during light-enhanced electrochemical oxidation of formic acid.

Author

Yalavarthi, Rambabu, Henrotte, Olivier, Kment, Štěpán, and Naldoni, Alberto

Subjects
OXIDATION of formic acid, PLASMONICS, CARBON monoxide poisoning, METALLIC composites, CRYSTAL morphology, IMPEDANCE spectroscopy
Abstract

The use of metal composites based on plasmonic nanostructures partnered with catalytic counterparts has recently emerged as a promising approach in the field of plasmon-enhanced electrocatalysis. Here, we report on the role of the surface morphology, size, and anchored site of Pd catalysts coupled to plasmonic metasurfaces formed by periodic arrays of multimetallic Ni/Au nanopillars for formic acid electro-oxidation reaction (FAOR). We compare the activity of two kinds of metasurfaces differing in the positioning of the catalytic Pd nanoparticles. In the first case, the Pd nanoparticles have a polyhedron crystal morphology with exposed (200) facets and were deposited over the Ni/Au metasurfaces in a site-selective fashion by limiting their growth at the electromagnetic hot spots (Ni/Au–Pd@W). In contrast, the second case consists of spherical Pd nanoparticles grown in solution, which are homogeneously deposited onto the Ni/Au metasurface (Ni/Au–Pd@M). Ni/Au–Pd@W catalytic metasurfaces demonstrated higher light-enhanced FAOR activity (61%) in comparison to the Ni/Au–Pd@M sample (42%) for the direct dehydrogenation pathway. Moreover, the site-selective Pd deposition promotes the growth of nanoparticles favoring a more selective catalytic behavior and a lower degree of CO poisoning on Pd surface. The use of cyclic voltammetry, energy-resolved incident photon to current conversion efficiency, open circuit potential, and electrochemical impedance spectroscopy highlights the role of plasmonic near fields and hot holes in driving the catalytic enhancement under light conditions. [ABSTRACT FROM AUTHOR]

Published
2022
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