Your search keyword '"Francesco Mezzadri"' showing total 188 results

1. Cu-Doped Sb2Se3 Thin-Film Solar Cells Based on Hybrid Pulsed Electron Deposition/Radio Frequency Magnetron Sputtering Growth Techniques

Author

Roberto Jakomin, Stefano Rampino, Giulia Spaggiari, Michele Casappa, Giovanna Trevisi, Elena Del Canale, Enos Gombia, Matteo Bronzoni, Kodjo Kekeli Sossoe, Francesco Mezzadri, and Francesco Pattini

Subjects

pulsed electron deposition, RF sputtering, Sb2Se3, thin-film solar cells, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

In recent years, research attention has increasingly focused on thin-film photovoltaics utilizing Sb2Se3 as an ideal absorber layer. This compound is favored due to its abundance, non-toxic nature, long-term stability, and the potential to employ various cost-effective and scalable vapor deposition (PVD) routes. On the other hand, improving passivation, surface treatment and p-type carrier concentration is essential for developing high-performance and commercially viable Sb2Se3 solar cells. In this study, Cu-doped Sb2Se3 solar devices were fabricated using two distinct PVD techniques, pulsed electron deposition (PED) and radio frequency magnetron sputtering (RFMS). Furthermore, 5%Cu:Sb2Se3 films grown via PED exhibited high open-circuit voltages (VOC) of around 400 mV but very low short-circuit current densities (JSC). Conversely, RFMS-grown Sb2Se3 films resulted in low VOC values of around 300 mV and higher JSC. To enhance the photocurrent, we employed strategies involving a thin NaF layer to introduce controlled local doping at the back interface and a bilayer p-doped region grown sequentially using PED and RFMS. The optimized Sb2Se3 bilayer solar cell achieved a maximum efficiency of 5.25%.

Published

2024

2. γ-BaFe2O4: a fresh playground for room temperature multiferroicity

Author

Fabio Orlandi, Davide Delmonte, Gianluca Calestani, Enrico Cavalli, Edmondo Gilioli, Vladimir V. Shvartsman, Patrizio Graziosi, Stefano Rampino, Giulia Spaggiari, Chao Liu, Wei Ren, Silvia Picozzi, Massimo Solzi, Michele Casappa, and Francesco Mezzadri

Subjects

Science

Abstract

The application of multiferroics is often limited by low ordering temperatures. Here, the authors show that BaFe2O4 is a room temperature antiferromagnet with improper ferroelectricity, suggesting it as a playground for the study of multiferroicity.

Published

2022

3. Pressure-Induced Neutral to Ionic Phase Transition in TTF-Fluoranil, DimethylTTF-Fluoranil and DimethylTTF-Chloranil: A Comparative THz Raman Study

Author

Elena Ferrari, Francesco Mezzadri, and Matteo Masino

Subjects

CT crystals, phase transition, lattice phonons, Crystallography, QD901-999

Abstract

The Neutral to Ionic phase Transition (NIT) that occurs in few mixed stack charge transfer cocrystals at high pressure or low temperature is a charge instability combined with a structural instability. The lattice contraction, which increases the 3D Coulomb interactions, favors a higher degree of charge transfer. Due to Peierls instability, this leads to the dimerization of the stack, breaking its inversion symmetry. The 3D interactions also determine the arrangement of the adjacent dimerized polar stacks, making the ionic phase ferroelectric or antiferroelectric. The role of these parameters that modulate the NIT has been widely studied in Tetrathiafulvalene-haloquinone cocrystals. Here, we compare the high-pressure behavior of three of them: the newly synthesized TTF-FA and DMTTF-FA with the known DMTTF-CA and isostructural DMTTF-FA. We followed the evolution of the lattice phonons via THz Raman spectroscopy, assessing the pressure-dependent structural changes. While the FA-based crystals undergo strong first-order NIT, DMTTF-CA shows a continuous transition. The high-pressure behavior of each crystal is also compared with the low-temperature behavior.

Published

2023

4. Analysis of Resonant Soft X-ray Reflectivity of Anisotropic Layered Materials

Author

Luca Pasquali, Nicola Mahne, Angelo Giglia, Adriano Verna, Lorenzo Sponza, Raffaella Capelli, Matteo Bonfatti, Francesco Mezzadri, Emanuele Galligani, and Stefano Nannarone

Subjects

soft X-ray reflectivity, anisotropic optical properties, organic thin films, Physics, QC1-999

Abstract

We present here a method for the quantitative prediction of the spectroscopic specular reflectivity line-shape in anisotropic layered media. The method is based on a 4 × 4 matrix formalism and on the simulation from the first principles (through density functional theory—DFT) of the anisotropic absorption cross-section. The approach was used to simulate the reflectivity at the oxygen K-edge of a 3,4,9,10-perylene-tetracarboxylic dianhydride (PTCDA) thin film on Au(111). The effect of film thickness, orientation of the molecules, and grazing incidence angle were considered. The simulation results were compared to the experiment, permitting us to derive information on the film geometry, thickness, and morphology, as well as the electronic structure.

Published

2021

5. All-Inorganic CsPbBr3 Perovskite Films Prepared by Single Source Thermal Ablation

Author

Lucia Nasi, Davide Calestani, Francesco Mezzadri, Fabrizio Mariano, Andrea Listorti, Patrizia Ferro, Marco Mazzeo, and Roberto Mosca

Subjects

halide perovskite, cesium lead tribromide, single source, vacuum deposition, green electroluminescence, Chemistry, QD1-999

Abstract

Hybrid organo-lead halide perovskites are becoming the benchmark material for next generation photovoltaics and a very important player for other applications such as photodetectors and light emitting diodes. Nevertheless, the most important issue hindering the large-scale application of these materials remains their intrinsic instability due to the organic cation. Although the substitution with inorganic cesium (Cs) enhances stability, in most cases solution deposition methods of fully inorganic perovskites result in high surface roughness and poor surface coverage. This work reports on the evaporation of the CsPbBr3 precursor by Single Source Thermal Ablation, showing that just after deposition films consist of a mixture of CsPbBr3, CsPb2Br5, and Cs4PbBr6 due to a vertical composition gradient. We point out that mild post deposition treatments lead to the conversion of CsPb2Br5 and Cs4PbBr6 into CsPbBr3 due to its higher thermodynamic stability. Conversion results into smooth and pinhole-free CsPbBr3 films with good light absorption and emission properties. We demonstrate the suitability of obtained films for planar devices by preparing perovskite-based pure-green light emitting diodes, thus promoting Single Source Thermal Ablation as a promising alternative deposition technique for all-inorganic perovskite-based devices.

Published

2020

6. Synthesis and crystal structure of 4-fluorobenzylammonium dihydrogen phosphate, [FC6H4CH2NH3]H2PO4

Author

Ali Rayes, Ahlem Dadi, Najla Mahbouli Rhouma, Francesco Mezzadri, and Gianluca Calestani

Subjects

crystal structure, organic inorganic hybrid materials, hydrogen bonds, Crystallography, QD901-999

Abstract

The asymmetric unit of the title salt, [p-FC6H4CH2NH3]+·H2PO4−, contains one 4-fluorobenzylammonium cation and one dihydrogen phosphate anion. In the crystal, the H2PO4− anions are linked by O—H...O hydrogen bonds to build corrugated layers extending parallel to the ab plane. The FC6H4CH2NH3+ cations lie between these anionic layers to maximize the electrostatic interactions and are linked to the H2PO4− anions through N—H...O hydrogen bonds, forming a three-dimensional supramolecular network. Two hydrogen atoms belonging to the dihydrogen phosphate anion are statistically occupied due to disorder along the OH...HO direction.

Published

2016

7. Synthesis and crystal structure of 4-(2-ammonioethyl)morpholin-4-ium dichloridodiiodidocadmate/chloridotriiodidocadmate (0.90/0.10)

Author

Najla Mahbouli Rhouma, Ali Rayes, Francesco Mezzadri, Gianluca Calestani, and Mohamed Loukil

Subjects

crystal structure, organic inorganic hybrid materials, hydrogen bonds, Crystallography, QD901-999

Abstract

The crystal structure of the title compound, (C6H16N2O)[CdCl1.90I2.10], a new organic–inorganic hybrid salt synthesized in the form of single crystals, consists of discrete statistically distributed dichloridodiiodidocadmate/chloridotriiodidocadmate anions (occupancy ratio 0.90:0.10) and 4-(2-ammonioethyl)morpholin-4-ium cations, [NH3(CH2)2NH(CH2)4O]2+. The cations are linked by intermolecular N—H...O hydrogen bonds, forming corrugated chains extending parallel to the c axis. The [CdCl1.90I2.10]2− tetrahalidocadmate anions lie between the chains to maximize the electrostatic interactions and are connected with the organic cations via N—H...Cl and C—H...Cl(I) hydrogen bonds developing in the ab plane and leading to the formation of a three-dimensional network structure. The tetracoordinate CdII atom has a distorted tetrahedral conformation, with a τ4 index of 0.87.

Published

2016

8. Crystal structure of non-centrosymmetric bis(4-methoxybenzylammonium) tetrachloridozincate

Author

Najla Mahbouli Rhouma, Ali Rayes, Francesco Mezzadri, Gianluca Calestani, and Mohamed Loukil

Subjects

crystal structure, non-centrosymmetric organic–inorganic hybrid material, hydrogen bonds, Crystallography, QD901-999

Abstract

The structure of the title non-centrosymmetric organic–inorganic hybrid salt, (C8H12NO)2[ZnCl4], consists of two 4-methoxybenzylammonium cations sandwiched between anionic layers, formed by isolated tetrachloridozincate tetrahedra. The double layers extend parallel to the ac plane. The crystal packing is assured by Coulombic interactions and by a complex N—H...Cl and C—H...Cl hydrogen-bonding system mostly involving the positively charged ammonium groups and the chloride ligands of the isolated tetrahedral [ZnCl4]2− units. One of the methyleneammonium groups is disordered over two sets of sites in a 0.48 (2):0.52 (2) ratio. The crystal investigated was twinned by non-merohedry with a twin component ratio of 0.738 (2):0.262 (2).

Published

2016

9. High Pressure Induced Insulator-to-Semimetal Transition through Intersite Charge Transfer in NaMn7O12

Author

Davide Delmonte, Francesco Mezzadri, Fabio Orlandi, Gianluca Calestani, Yehezkel Amiel, and Edmondo Gilioli

Subjects

strongly correlated systems, high pressure, charge ordering, MIT, Crystallography, QD901-999

Abstract

The pressure-dependent behaviour of NaMn7O12 (up to 40 GPa) is studied and discussed by means of single-crystal X-ray diffraction and resistance measurements carried out on powdered samples. A transition from thermally activated transport mechanism to semimetal takes place above 18 GPa, accompanied by a change in the compressibility of the system. On the other hand, the crystallographic determinations rule out a symmetry change to be at the origin of the transition, despite all the structural parameters pointing to a symmetrizing effect of pressure. Bond valence sum calculations indicate a charge transfer from the octahedrally coordinated manganese ions to the square planar ones, likely favouring the delocalization of the carriers.

Published

2018

10. On the Lagged Diffusivity Method for the Solution of Nonlinear Finite Difference Systems

Author

Francesco Mezzadri and Emanuele Galligani

Subjects

lagged diffusivity method, diffusion equations, finite-difference discretizations, blow-up solutions, Industrial engineering. Management engineering, T55.4-60.8, Electronic computers. Computer science, QA75.5-76.95

Abstract

In this paper, we extend the analysis of the Lagged Diffusivity Method for nonlinear, non-steady reaction-convection-diffusion equations. In particular, we describe how the method can be used to solve the systems arising from different discretization schemes, recalling some results on the convergence of the method itself. Moreover, we also analyze the behavior of the method in case of problems presenting boundary layers or blow-up solutions.

Published

2017

11. A modulus-based formulation for the vertical linear complementarity problem.

Author

Francesco Mezzadri

Published

2022

12. Projected Splitting Methods for Vertical Linear Complementarity Problems.

Author

Francesco Mezzadri and Emanuele Galligani

Published

2022

13. Modulus-based matrix splitting methods for a class of horizontal nonlinear complementarity problems.

Author

Francesco Mezzadri and Emanuele Galligani

Published

2021

14. A modulus-based nonsmooth Newton's method for solving horizontal linear complementarity problems.

Author

Francesco Mezzadri and Emanuele Galligani

Published

2021

15. On the convergence of modulus-based matrix splitting methods for horizontal linear complementarity problems in hydrodynamic lubrication.

Author

Francesco Mezzadri and Emanuele Galligani

Published

2020

16. Modulus-based matrix splitting methods for horizontal linear complementarity problems.

Author

Francesco Mezzadri and Emanuele Galligani

Published

2020

17. Universal characteristics of deep neural network loss surfaces from random matrix theory.

Author

Nicholas P. Baskerville, Jonathan P. Keating, Francesco Mezzadri, Joseph Najnudel, and Diego Granziol

Published

2022

18. A Framework for Physics-Informed Deep Learning Over Freeform Domains.

Author

Francesco Mezzadri, Joshua Gasick, and Xiaoping Qian

Published

2023

19. A nonlinearity lagging method for non-steady diffusion equations with nonlinear convection terms.

Author

Francesco Mezzadri and Emanuele Galligani

Published

2019

20. Splitting Methods for a Class of Horizontal Linear Complementarity Problems.

Author

Francesco Mezzadri and Emanuele Galligani

Published

2019

21. A spin-glass model for the loss surfaces of generative adversarial networks.

Author

Nicholas P. Baskerville, Jonathan P. Keating, Francesco Mezzadri, and Joseph Najnudel

Published

2021

22. The Loss Surfaces of Neural Networks with General Activation Functions.

Author

Nicholas P. Baskerville, Jonathan P. Keating, Francesco Mezzadri, and Joseph Najnudel

Published

2020

23. Modulus-based synchronous multisplitting methods for solving horizontal linear complementarity problems on parallel computers.

Author

Francesco Mezzadri

Published

2020

24. A generalization of the equivalence relations between modulus-based and projected splitting methods

Author

Francesco Mezzadri and Emanuele Galligani

Subjects

General Mathematics

Published

2022

25. A Chebyshev technique for the solution of optimal control problems with nonlinear programming methods.

Author

Francesco Mezzadri and Emanuele Galligani

Published

2016

26. A second-order measure of boundary oscillations for overhang control in topology optimization.

Author

Francesco Mezzadri and Xiaoping Qian

Published

2020

27. On the solution of general absolute value equations.

Author

Francesco Mezzadri

Published

2020

28. Effect of hydrogen-related defects on the photoelectrical performance of κ-Ga2O3-based UV-C photodetectors

Author

Antonella Parisini, Piero Mazzolini, Maura Pavesi, Andreas Falkenstein, Alessio Bosio, Carmine Borelli, Vivien Peltason, Benjamin M. Jantzen, Markus R. Wagner, Matteo Bosi, Luca Seravalli, Andrea Ardenghi, Oliver Bierwagen, Francesco Mezzadri, Manfred Martin, Andrea Baraldi, and Roberto Fornari

Published

2023

29. High pressure bulk synthesis of InN by solid state reaction of binary oxide in a multi-anvil apparatus

Author

Elena Del Canale, Lorenzo Fornari, Chiara Coppi, Giulia Spaggiari, Francesco Mezzadri, Giovanna Trevisi, Patrizia Ferro, Edmondo Gilioli, Massimo Mazzer, and Davide Delmonte

Subjects

Inorganic Chemistry, Condensed Matter - Materials Science, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Physical and Theoretical Chemistry

Abstract

We present a new method to synthesize bulk indium nitride by means of a simple solid-state chemical reaction carried out under hydrostatic high pressure/high temperature conditions in a multi-anvil apparatus, not involving gases or solvents during the process. The reaction occurs between the binary oxide $In_2O_3$ and the highly reactive $Li_3N$ as nitrogen source, in powder form. The formation of the hexagonal phase of InN, occurring at 350 {\deg}C and P $\geq$ 3 GPa, was successfully confirmed by powder X-ray diffraction, with the presence of $Li_2O$ as unique byproduct. A simple washing process in weak acidic solution followed by centrifugation, allowed to obtain pure InN polycrystalline powders as precipitate. With an analogous procedure it was possible to obtain pure bulk GaN, from $Ga_2O_3$ and $Li_3N$ at T $\geq$ 600{\deg}C and P $\geq$ 2.5 GPa. These results point out, particularly for InN, a clean, and innovative way to produce significant quantities of one of the most promising nitrides in the field of electronics and energy technologies., Comment: Under revision in a peer-review journal

Published

2023

30. Synthesis, Structural, Thermal, Optical, and Spectroscopic Characterization of a New Centrosymmetric Hybrid Material: [C7H9NF]2ZnCl4

Author

Najla Mahbouli Rhouma, Dadi Ahlem, Francesco Mezzadri, Mohamed Loukil, and Achraf Ghorbal

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2023

31. Exploring Cu-Doping for Performance Improvement in Sb2Se3 Photovoltaic Solar Cells

Author

Giulia Spaggiari, Danilo Bersani, Davide Calestani, Edmondo Gilioli, Enos Gombia, Francesco Mezzadri, Michele Casappa, Francesco Pattini, Giovanna Trevisi, and Stefano Rampino

Subjects

Inorganic Chemistry, Organic Chemistry, Sb2Se3, thin-film solar cells, Cu doping, pulsed electron deposition, General Medicine, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications

Abstract

Copper-doped antimony selenide (Cu-doped Sb2Se3) thin films were deposited as absorber layers in photovoltaic solar cells using the low-temperature pulsed electron deposition (LT-PED) technique, starting from Sb2Se3 targets where part of the Sb was replaced with Cu. From a crystalline point of view, the best results were achieved for thin films with about Sb1.75Cu0.25Se3 composition. In order to compare the results with those previously obtained on undoped thin films, Cu-doped Sb2Se3 films were deposited both on Mo- and Fluorine-doped Tin Oxide (FTO) substrates, which have different influences on the film crystallization and grain orientation. From the current-voltage analysis it was determined that the introduction of Cu in the Sb2Se3 absorber enhanced the open circuit voltage (VOC) up to remarkable values higher than 500 mV, while the free carrier density became two orders of magnitude higher than in pure Sb2Se3-based solar cells.

Published

2022

32. Projected Splitting Methods for Vertical Linear Complementarity Problems

Author

Emanuele Galligani and Francesco Mezzadri

Subjects

Control and Optimization, Applied Mathematics, Diagonal, Dimension (graph theory), MathematicsofComputing_NUMERICALANALYSIS, Jacobi method, Context (language use), Management Science and Operations Research, symbols.namesake, Convergence (routing), Theory of computation, symbols, Applied mathematics, Diagonally dominant matrix, Mathematics, Sparse matrix

Abstract

In this paper, we generalize the projected Jacobi and the projected Gauss–Seidel methods to vertical linear complementarity problems (VLCPs) characterized by matrices with positive diagonal entries. First, we formulate the methods and show that the subproblems that must be solved at each iteration have an explicit solution, which is easy to compute. Then, we prove the convergence of the proposed procedures when the matrices of the problem satisfy some assumptions of strict or irreducible diagonal dominance. In this context, for simplicity, we first analyze the convergence in the special case of VLCPs of dimension $$2n\times n$$ , and we then generalize the results to VLCPs of an arbitrary dimension $$\ell n\times n$$ . Finally, we provide several numerical experiments (involving both full and sparse matrices) that show the effectiveness of the proposed approaches. In this context, our methods are compared with existing solution methods for VLCPs. A parallel implementation of the projected Jacobi method in CUDA is also presented and analyzed.

Published

2021

33. A generalization of irreducibility and diagonal dominance with applications to horizontal and vertical linear complementarity problems

Author

Francesco Mezzadri and Emanuele Galligani

Subjects

Numerical Analysis, Pure mathematics, Algebra and Number Theory, Current (mathematics), Horizontal and vertical, Generalization, MathematicsofComputing_NUMERICALANALYSIS, Context (language use), Column representative matrices, Diagonal dominance, Irreducibility, Linear complementarity problems, Row representative matrices, Complementarity (molecular biology), ComputingMethodologies_SYMBOLICANDALGEBRAICMANIPULATION, Convergence (routing), Discrete Mathematics and Combinatorics, Geometry and Topology, Mathematics, Diagonally dominant matrix

Abstract

In this paper, we generalize and analyze the concepts of diagonal dominance and irreducibility in the framework of column and row representative matrices of a set. Our analysis includes the definition of particular sets of M- and H-matrices. We also analyze the form that the matrices of the introduced irreducible sets must have and the implications of the obtained results on the solution of vertical and horizontal linear complementarity problems. In this context, we prove that the projected Jacobi and the projected Gauss-Seidel methods for horizontal linear complementarity problems converge when the matrices of the problem satisfy one of the introduced generalizations of strict diagonal dominance or of irreducible diagonal dominance. This extends current convergence results.

Published

2021

34. Selective and Reversible Solvent Uptake in Tetra-4-(4-pyridyl)phenylmethane-based Supramolecular Organic Frameworks

Author

Danilo Marchetti, Francesca Portone, Francesco Mezzadri, Enrico Dalcanale, Mauro Gemmi, Alessandro Pedrini, and Chiara Massera

Subjects

Organic Chemistry, General Chemistry, Catalysis

Abstract

The dynamic behavior of supramolecular organic frameworks (SOFs) based on the rigid tetra-4-(4-pyridyl)phenylmethane (TPPM) organic tecton has been elucidated through 3D electron diffraction, X-ray powder diffraction and differential scanning calorimetry (DSC) analysis. The SOF undergoes a reversible single-crystal-to-single-crystal transformation when exposed to vapours of selected organic solvents, moving from a closed structure with isolated small voids to an expanded structure with solvated channels along the b axis. The observed selectivity is dictated by the fitting of the guest in the expanded SOF, following the degree of packing coefficient. The effect of solvent uptake on TPPM solid-state fluorescence was investigated, evidencing a significant variation in the emission profile only in the presence of chloroform.

Published

2022

35. Deterministic synthesis of Cu9S5 flakes assisted by single-layer graphene arrays

Author

Marco A. Giambra, Luca Bellucci, Camilla Coletti, Vaidotas Miseikis, Domenica Convertino, Alberto Portone, Giulia Piccinini, Francesco Mezzadri, Filippo Fabbri, and Francesca Rossi

Subjects

Electron mobility, Materials science, Bioengineering, 02 engineering and technology, 010402 general chemistry, Epitaxy, 01 natural sciences, law.invention, Lattice constant, law, General Materials Science, Graphene, business.industry, Doping, General Engineering, Heterojunction, General Chemistry, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Characterization (materials science), Optoelectronics, Light emission, 0210 nano-technology, business

Abstract

The employment of two-dimensional materials, as growth substrates or buffer layers, enables the epitaxial growth of layered materials with different crystalline symmetries with a preferential crystalline orientation and the synthesis of heterostructures with a large lattice constant mismatch. In this work, we employ single crystalline graphene to modify the sulfurization dynamics of copper foil for the deterministic synthesis of large-area Cu9S5 crystals. Molecular dynamics simulations using the Reax force-field are used to mimic the sulfurization process of a series of different atomistic systems specifically built to understand the role of graphene during the sulphur atom attack over the Cu(111) surface. Cu9S5 flakes show a flat morphology with an average lateral size of hundreds of micrometers. Cu9S5 presents a direct band-gap of 2.5 eV evaluated with light absorption and light emission spectroscopies. Electrical characterization shows that the Cu9S5 crystals present high p-type doping with a hole mobility of 2 cm(2) V-1 s(-1).

Published

2021

36. Analysis of Resonant Soft X-ray Reflectivity of Anisotropic Layered Materials

Author

Angelo Giglia, Raffaella Capelli, Matteo Bonfatti, Lorenzo Sponza, Emanuele Galligani, Adriano Verna, Luca Pasquali, Nicola Mahne, Stefano Nannarone, Francesco Mezzadri, Università degli Studi di Modena e Reggio Emilia (UNIMORE), CNR Istituto Officina dei Materiali (IOM), Consiglio Nazionale delle Ricerche [Roma] (CNR), University of Johannesburg (UJ), Università degli Studi Roma Tre, LEM, UMR 104, CNRS-ONERA, Université Paris-Saclay (Laboratoire d'étude des microstructures), ONERA-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Pasquali, L, Mahne, N, Giglia, A, Verna, A, Sponza, L, Capelli, R, Bonfatti, M, Mezzadri, F, Galligani, E, and Nannarone, S

Subjects

[PHYS]Physics [physics], Materials science, Condensed matter physics, Physics, QC1-999, organic thin films, Electronic structure, 010502 geochemistry & geophysics, 01 natural sciences, Reflectivity, anisotropic optical propertie, soft X-ray reflectivity, [SPI]Engineering Sciences [physics], Orientation (geometry), 0103 physical sciences, anisotropic optical properties, [CHIM]Chemical Sciences, Molecule, Specular reflection, Thin film, 010306 general physics, Absorption (electromagnetic radiation), Anisotropy, 0105 earth and related environmental sciences

Abstract

We present here a method for the quantitative prediction of the spectroscopic specular reflectivity line-shape in anisotropic layered media. The method is based on a 4 &times, 4 matrix formalism and on the simulation from the first principles (through density functional theory&mdash, DFT) of the anisotropic absorption cross-section. The approach was used to simulate the reflectivity at the oxygen K-edge of a 3,4,9,10-perylene-tetracarboxylic dianhydride (PTCDA) thin film on Au(111). The effect of film thickness, orientation of the molecules, and grazing incidence angle were considered. The simulation results were compared to the experiment, permitting us to derive information on the film geometry, thickness, and morphology, as well as the electronic structure.

Published

2021

37. On the moments of characteristic polynomials

Author

Bhargavi Jonnadula, Jonathan P. Keating, and Francesco Mezzadri

Subjects

05E05, 15B52, 11M50, General Mathematics, FOS: Physical sciences, Mathematical Physics (math-ph), Mathematical Physics

Abstract

We examine the asymptotics of the moments of characteristic polynomials of $N\times N$ matrices drawn from the Hermitian ensembles of Random Matrix Theory, in the limit as $N\to\infty$. We focus in particular on the Gaussian Unitary Ensemble, but discuss other Hermitian ensembles as well. We employ a novel approach to calculate asymptotic formulae for the moments, enabling us to uncover subtle structure not apparent in previous approaches., 26 pages

Published

2022

38. Universal characteristics of deep neural network loss surfaces from random matrix theory

Author

Nicholas P Baskerville, Jonathan P Keating, Francesco Mezzadri, Joseph Najnudel, and Diego Granziol

Subjects

Statistics and Probability, FOS: Computer and information sciences, Computer Science - Machine Learning, Modeling and Simulation, MathematicsofComputing_NUMERICALANALYSIS, General Physics and Astronomy, FOS: Physical sciences, Statistical and Nonlinear Physics, Mathematical Physics (math-ph), Disordered Systems and Neural Networks (cond-mat.dis-nn), Condensed Matter - Disordered Systems and Neural Networks, Mathematical Physics, Machine Learning (cs.LG)

Abstract

This paper considers several aspects of random matrix universality in deep neural networks. Motivated by recent experimental work, we use universal properties of random matrices related to local statistics to derive practical implications for deep neural networks based on a realistic model of their Hessians. In particular we derive universal aspects of outliers in the spectra of deep neural networks and demonstrate the important role of random matrix local laws in popular pre-conditioning gradient descent algorithms. We also present insights into deep neural network loss surfaces from quite general arguments based on tools from statistical physics and random matrix theory., 42 pages

Published

2022

39. γ-BaFe

Author

Fabio, Orlandi, Davide, Delmonte, Gianluca, Calestani, Enrico, Cavalli, Edmondo, Gilioli, Vladimir V, Shvartsman, Patrizio, Graziosi, Stefano, Rampino, Giulia, Spaggiari, Chao, Liu, Wei, Ren, Silvia, Picozzi, Massimo, Solzi, Michele, Casappa, and Francesco, Mezzadri

Abstract

Multiferroics, showing the coexistence of two or more ferroic orderings at room temperature, could harness a revolution in multifunctional devices. However, most of the multiferroic compounds known to date are not magnetically and electrically ordered at ambient conditions, so the discovery of new materials is pivotal to allow the development of the field. In this work, we show that BaFe

Published

2022

40. Supramolecular Assemblies in Silver Complexes: Phase Transitions and the Role of the Halogen Bond

Author

Matteo Melegari, Vittoria Marzaroli, Francesco Mezzadri, Giulia Bonfant, Irene Bassanetti, Luciano Marchiò, and Davide Balestri

Subjects

chemistry.chemical_classification, Halogen bond, 010405 organic chemistry, Chemistry, Hydrogen bond, Stacking, Supramolecular chemistry, 010402 general chemistry, Ring (chemistry), 01 natural sciences, 0104 chemical sciences, Coordination complex, law.invention, Inorganic Chemistry, Crystallography, law, Halogen, Physical and Theoretical Chemistry, Crystallization

Abstract

Weak interactions (hydrogen bonds, halogen bonds, CH···π and π-π stacking) can play a significant role in the formation of supramolecular assemblies with desired structural features. In this contribution, we report a systematic investigation on how a halogen bond (XB) can modulate the structural arrangement of silver supramolecular complexes. The complexes are composed of X-phenyl(bispyrazolyl)methane (X = Br, I) and I-alkynophenyl(bispyrazolyl)methane ligands functionalized in meta (L3Br, L3I) and para (L4Br, L4I, L4CCI) positions on a phenyl ring with the purpose of providing different directionalities of the X function with respect to the N,N coordination system. The obtained [Ag(L)2]+ moieties show remarkable geometric similarities, and the L4Br, L4I, and L4CCI ligands exhibit the most conserved types of supramolecular arrangement that are sustained by XB. The increased σ-hole in L4CCI with respect to L4I leads to an occurrence of short (and strong) XB interactions with the anions. [Ag(L4I)2]PF6 and [Ag(L4I)2]CF3SO3 are characterized by the presence of three different phases, and the single-crystal evolution from phase-1 (a honeycomb structure with large 1D cavities) to phase-3 (solventless) occurs by a stepwise decrease in the crystallization solvent content, which promotes an increase in XB interactions in the lattice. The present paper aims to provide useful tools for the selection of appropriate components for the use of coordination compounds to build supramolecular systems based on the halogen bond.

Published

2020

41. Temperature-induced neutral-to-ionic phase transition of the charge-transfer crystal tetrathiafulvalene-fluoranil

Author

Elena Ferrari, Francesco Mezzadri, and Matteo Masino

Subjects

Condensed Matter - Materials Science, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

The Temperature Induced Neutral to Ionic phase Transition (TI-NIT) is a rare phenomenon occurring in mixed stack charge transfer (CT) crystals made up of alternating $\pi$-electron Donor (D) and Acceptor (A) molecules. We were able to grow crystals of Tetrathiafulvalene-Fluoranil (TTF-FA), and to show that it undergoes TI-NIT like the prototype CT crystal TTF-Chloranil. We characterized both room and low T phases through IR and Raman spectroscopy and XRD, demonstrating that while TTF-FA is quasi-neutral at room T, its ionicity jumps from 0.15 to 0.7 at low T, therefore crossing the Neutral-Ionic borderline. The transition, occuring around 150K, is first order, with large thermal hysteresis and accompanied by crystal cracking. In the high T phase D and A molecules lie on inversion center, i.e. the stacks are regular, whereas the low T phase is characterized by the loss of the inversion symmetry along the stack as the stacks are strongly dimerized and by the doubling of the unit cell., Comment: 7 pages, 5 figures

Published

2022

42. On the number of real eigenvalues of a product of truncated orthogonal random matrices

Author

Nicholas Simm, Alex Little, and Francesco Mezzadri

Subjects

Statistics and Probability, Probability (math.PR), FOS: Physical sciences, Mathematical Physics (math-ph), 01 natural sciences, 010104 statistics & probability, truncated orthogonal matrices, 0103 physical sciences, FOS: Mathematics, real eigenvalues, products of random matrices, 0101 mathematics, Statistics, Probability and Uncertainty, 010306 general physics, Mathematics - Probability, Mathematical Physics

Abstract

Let $O$ be chosen uniformly at random from the group of $(N+L) \times (N+L)$ orthogonal matrices. Denote by $\tilde{O}$ the upper-left $N \times N$ corner of $O$, which we refer to as a truncation of $O$. In this paper we prove two conjectures of Forrester, Ipsen and Kumar (2020) on the number of real eigenvalues $N^{(m)}_{\mathbb{R}}$ of the product matrix $\tilde{O}_{1}\ldots \tilde{O}_{m}$, where the matrices $\{\tilde{O}_{j}\}_{j=1}^{m}$ are independent copies of $\tilde{O}$. When $L$ grows in proportion to $N$, we prove that \begin{equation*} \mathbb{E}(N^{(m)}_{\mathbb{R}}) = \sqrt{\frac{2m L}{\pi}}\,\mathrm{arctanh}\left(\sqrt{\frac{N}{N+L}}\right) + O(1), \qquad N \to \infty.\end{equation*}\ud We also prove the conjectured form of the limiting real eigenvalue distribution of the product matrix. Finally, we consider the opposite regime where $L$ is fixed with respect to $N$, known as the \textit{regime of weak non-orthogonality}. In this case each matrix in the product is very close to an orthogonal matrix. We show that $\mathbb{E}(N^{(m)}_{\mathbb{R}}) \sim c_{L,m}\,\log(N)$ as $N \to \infty$ and compute the constant $c_{L,m}$ explicitly. These results generalise the known results in the one matrix case due to Khoruzhenko, Sommers and \.{Z}yczkowski (2010).

Published

2022

43. A Framework for Physics-Informed Deep Learning Over Freeform Domains

Author

Francesco Mezzadri, Joshua Gasick, and Xiaoping Qian

Subjects

History, Polymers and Plastics, Business and International Management, Computer Graphics and Computer-Aided Design, Industrial and Manufacturing Engineering, Computer Science Applications

Published

2022

44. Silane‐Mediated Expansion of Domains in Si‐Doped κ‐Ga 2 O 3 Epitaxy and its Impact on the In‐Plane Electronic Conduction

Author

Piero Mazzolini, Zsolt Fogarassy, Antonella Parisini, Francesco Mezzadri, David Diercks, Matteo Bosi, Luca Seravalli, Anna Sacchi, Giulia Spaggiari, Danilo Bersani, Oliver Bierwagen, Benjamin Moritz Janzen, Marcella Naomi Marggraf, Markus R. Wagner, Ildiko Cora, Béla Pécz, Abbes Tahraoui, Alessio Bosio, Carmine Borelli, Stefano Leone, and Roberto Fornari

Subjects

Biomaterials, Electrochemistry, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2022

45. Centrosymmetry Breaking and Ferroelectricity Driven by Short-Range Magnetic Order in the Quadruple Perovskite (YMn3)Mn4O12

Author

Gianluca Calestani, Davide Delmonte, Yannick Klein, Edmondo Gilioli, Fulvio Bolzoni, Marine Verseils, Benoit Baptiste, Andrea Gauzzi, Riccardo Cabassi, and Francesco Mezzadri

Subjects

Superstructure, Condensed matter physics, 010405 organic chemistry, Chemistry, Dielectric, 010402 general chemistry, Centrosymmetry, 01 natural sciences, Ferroelectricity, 0104 chemical sciences, Ion, Inorganic Chemistry, Polarization density, Magnetization, HIGH-PRESSURE SYNTHESIS, CRYSTAL-STRUCTURE, MULTIFERROICS, GROWTH, Physical and Theoretical Chemistry, Perovskite (structure)

Abstract

By means of single-crystal X-ray diffraction, we give direct crystallographic evidence of a centrosymmetry breaking below TS = 200 K, concomitant with the onset of a commensurate structural modulation in the quadruple perovskite YMn3Mn4O12. This result, which explains the anomalously large thermal coefficient of the Y3+ ion in previously reported structural models, is attributed to the small size of the Y3+ ion, which causes its underbonding within the dodecahedral coordination polyhedron. The present data are consistent with a commensurate superstructure described by an I-centered pseudo-orthorhombic cell with polar Ia symmetry and a ? aF?2 = 10.4352(7) Å, b ? 2bF = 14.6049(9) Å, c ? cF?2 = 10.6961(7) Å, and ? = 90.110(3)°, where aF ? cF ? 7.45 Å, bF ? 7.34 Å, and ? ? 91° are the unit cell parameters of the I2/m structure observed at room temperature. Consistent with the above polar structure, at lower temperature, T* = 70 K, we observe in polycrystalline samples an anomaly of the direct current (DC) and alternating current (AC) magnetization, concomitant with the appearance of a net electric polarization, as indicated by pyrocurrent and dielectric constant measurements. These results, complemented by electrical transport measurements, suggest a magnetic ferroelectricity driven by short-range magnetic order in YMn3Mn4O12.

Published

2019

46. Synthesis, crystal structure, Hirshfeld surface analysis and dielectric properties of a new centrosymmetric hybrid compound (C4H12NO3)CdCl3·H2O

Author

Nouha Messoudi, Ahlem Dadi, Francesco Mezzadri, Kamel Khirouni, M. Loukil, and Aycha Jellali

Subjects

Chemistry, Crystal structure, Dielectric, Triclinic crystal system, Conductivity, Polaron, Dielectric spectroscopy, Inorganic Chemistry, symbols.namesake, Crystallography, Differential scanning calorimetry, Materials Chemistry, symbols, Physical and Theoretical Chemistry, Raman spectroscopy

Abstract

A new organic–inorganic hybrid centrosymmetric compound, (C4H12NO3)CdCl3·H2O, was synthesized by the slow evaporation method at room temperature and characterized by single X-ray diffraction (SCXRD). The results of the X-ray diffraction study demonstrated that this material crystallizes in the triclinic system with the space group P 1 ¯ and the following unit cell parameters a = 6.822(6) A, b = 8.96(2) A, c = 10.034(3) A, α = 72.901(3)°, β = 71.927(3)°, γ = 89.099(3)° and Z = 2. In the crystal structure, the atomic arrangement is described as an alternation of organic and inorganic layers along the a-axis. The anionic layers are formed by [CdCl5O]− octahedrons, while the cationic layers are made up of [C4H12NO3]+ cations. The crystal packing is governed by N H⋯Cl, N H⋯O, C H⋯Cl, O H⋯Cl and O H⋯O hydrogen bonds, forming a three dimensional supramolecular network. Hirshfeld surfaces and 2D fingerprint plots were determined for visualizing, exploring and quantifying the intermolecular interactions in the crystal lattice of the title compound. Infrared and Raman spectroscopy were reported at room temperature in the frequency domains 400–4000 cm−1 and 50–500 cm−1, respectively. Differential scanning calorimetry (DSC) revealed one exothermic peak located at around T1 = 368 K. Electrical and dielectric properties were investigated as a function of temperature (300–430 K) in the frequency range 40 Hz–110 MHz. The electrical and dielectric studies were performed by means of impedance spectroscopy and dielectric permittivity e ' , e ' ' . Nyquist curves were well fitted to an equivalent circuit formed by parallel combination resistance and capacity fractal of the bulk. The frequency dependence of the alternative current (AC) conductivity was analyzed using the Jonscher law. Overlapping-large polaron tunneling (OLPT) and non-overlapping small polaron tunneling (NSPT) conduction mechanism models successfully explained the behavior of the exponent n.

Published

2019

47. Modulus-based matrix splitting methods for horizontal linear complementarity problems

Author

Francesco Mezzadri and Emanuele Galligani

Subjects

010101 applied mathematics, Matrix splitting, Applied Mathematics, Numerical analysis, Theory of computation, MathematicsofComputing_NUMERICALANALYSIS, Applied mathematics, Modulus, 010103 numerical & computational mathematics, 0101 mathematics, 01 natural sciences, Complementarity (physics), Mathematics

Abstract

In this paper, we extend modulus-based matrix splitting iteration methods to horizontal linear complementarity problems. We consider both standard and accelerated methods and analyze their convergence. In this context, we also generalize existing results on modulus-based matrix splitting iteration methods for (non-horizontal) linear complementarity problems. Lastly, we analyze the proposed methods by numerical experiments involving both symmetric and non-symmetric matrices.

Published

2019

48. The loss surfaces of neural networks with general activation functions

Author

Jon P Keating, Francesco Mezzadri, Nicholas P. Baskerville, and Joseph Najnudel

Subjects

FOS: Computer and information sciences, Statistics and Probability, Computer Science - Machine Learning, Work (thermodynamics), Asymptotic analysis, Spin glass, Computer science, FOS: Physical sciences, 01 natural sciences, Machine Learning (cs.LG), 0103 physical sciences, FOS: Mathematics, Statistical physics, 0101 mathematics, 010306 general physics, Condensed Matter - Statistical Mechanics, Mathematical Physics, Statistical Mechanics (cond-mat.stat-mech), Artificial neural network, business.industry, Deep learning, Probability (math.PR), 010102 general mathematics, Statistical and Nonlinear Physics, Mathematical Physics (math-ph), Artificial intelligence, Statistics, Probability and Uncertainty, business, Mathematics - Probability

Abstract

The loss surfaces of deep neural networks have been the subject of several studies, theoretical and experimental, over the last few years. One strand of work considers the complexity, in the sense of local optima, of high dimensional random functions with the aim of informing how local optimisation methods may perform in such complicated settings. Prior work of Choromanska et al (2015) established a direct link between the training loss surfaces of deep multi-layer perceptron networks and spherical multi-spin glass models under some very strong assumptions on the network and its data. In this work, we test the validity of this approach by removing the undesirable restriction to ReLU activation functions. In doing so, we chart a new path through the spin glass complexity calculations using supersymmetric methods in Random Matrix Theory which may prove useful in other contexts. Our results shed new light on both the strengths and the weaknesses of spin glass models in this context., 50 pages, 11 figures; references added for Kac-Rice reduction to RMT method; updates following JSTAT review and publication

Published

2021

49. Relaxor ferroelectricity in the polar M2P-TCNQ charge-transfer crystal at the neutral-ionic interface

Author

Gabriele D'Avino, J. K. H. Fischer, Francesco Mezzadri, Matteo Masino, Alberto Girlando, Zoltán G. Soos, and Peter Lunkenheimer

Subjects

Arrhenius equation, Materials science, Condensed matter physics, Ionic bonding, 02 engineering and technology, Dielectric, 021001 nanoscience & nanotechnology, 01 natural sciences, Ferroelectricity, Crystal, Condensed Matter::Materials Science, symbols.namesake, Polarizability, 0103 physical sciences, symbols, Relaxation (physics), 010306 general physics, 0210 nano-technology, Energy (signal processing)

Abstract

We investigated the mixed-stack charge-transfer crystal, N,N'-dimethylphenazine-TCNQ (${\mathrm{M}}_{2}\mathrm{P}$-TCNQ), which is polar at room temperature and just at the neutral-to-ionic interface (ionicity $\ensuremath{\rho}\ensuremath{\approx}0.5$). We detect the typical dielectric signature of a relaxor ferroelectric and an asymmetric positive-up-negative-down behavior. While relaxor ferroelectricity is usually ascribed to disorder in the crystal, we find no evidence for structural disorder in the investigated crystals. To elucidate the origin of ${\mathrm{M}}_{2}\mathrm{P}$-TCNQ's dielectric properties we perform parallel structural and spectroscopic measurements, associated with theoretical modeling and quantum-mechanical calculations. Our combined effort points to a highly polarizable electronic system that is strongly coupled to lattice vibrations. The found indications for polarization reversal imply flipping of the bent conformation of the ${\mathrm{M}}_{2}\mathrm{P}$ molecule with an associated energy barrier of a few tens of an eV, broadly consistent with an Arrhenius fit of the dielectric relaxation times. While the polarization is mostly of electronic origin, its possible reversal implies slow collective motions that are affected by solid-state intermolecular interactions.

Published

2021

50. Unexplained life-threatening high anion gap metabolic acidosis: the answer is in the urine!

Author

Andrea Palladini, Marco Delsante, Francesca Di Mario, Enrico Fiaccadori, Giuseppe Regolisti, Francesco Mezzadri, Francesco Scioscioli, and Davide Delmonte

Subjects

Nephrology, Acid-Base Equilibrium, medicine.medical_specialty, business.industry, MEDLINE, Urine, Nephropaty, medicine.disease, High anion gap metabolic acidosis, Internal medicine, medicine, Humans, Intensive care medicine, business, Acidosis

Abstract

A 49-year-old black male was referred to the Emergency Department (ED) after a 24-h history of confusion, progressive blurring of vision and altered mental status. On admission, the patient was confused and showed slurred speech and dyspnea. A history of alcohol abuse, and recent use of non-specified "energy drinks" was reported. The patient was apyretic; blood pressure was 170/80 mmHg, pulse rate 98 beats/min, respiratory rate 38 breaths/min, and peripheral oxygen saturation 99% at room air. Physical examination was unremarkable, but he showed progressive depression of cognitive status with no motor deficits nor nuchal rigidity. Brain CT scan was negative. Arterial blood gas showed high anion gap metabolic acidosis with slightly increased lactate levels (Table 1). Measured osmolality was 301 mOsm/kg, with no evident osmolal gap.

Published

2021