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111. Effects of Heat Treatments on the Properties of Copper Phthalocyanine Films Deposited by Glow-Discharge-Induced Sublimation

Author

Maggioni, Gianluigi, primary, Carturan, Sara, additional, Tonezzer, Michele, additional, Bonafini, Marco, additional, Vomiero, Alberto, additional, Quaranta, Alberto, additional, Maurizio, Chiara, additional, Giannici, Francesco, additional, Scandurra, Antonino, additional, D'Acapito, Francesco, additional, Della Mea, Gianantonio, additional, and Puglisi, Orazio, additional

Published
2006
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114. Interface Diffusion and Compatibility of (Ba,La)FeO3−δPerovskite Electrodes in Contact with Barium Zirconate and Ceria

Author

Chiara, Alessandro, Raimondi, Giulia, Merkle, Rotraut, Maier, Joachim, Bordenca, Claudio Ventura, Pipitone, Candida, Longo, Alessandro, and Giannici, Francesco

Abstract

Ba1–xLaxFeO3−δperovskites (BLF) capable of conducting electrons, protons, and oxygen ions are promising oxygen electrodes for efficient solid oxide cells (fuel cells or electrolyzers), an integral part of prospected large-scale power-to-gas energy storage systems. We investigated the compatibility of BLF with lanthanum content between 5 and 50%, in contact with oxide-ion-conducting Ce0.8Gd0.2O2−δand proton-conducting BaZr0.825Y0.175O3−δelectrolytes, annealing the electrode–electrolyte bilayers at high temperature to simulate thermal stresses of fabrication and prolonged operation. By employing both bulk X-ray diffraction and synchrotron X-ray microspectroscopy, we present a space-resolved picture of the interaction between electrode and electrolyte as what concerns cation interdiffusion, exsolution, and phase stability. We found that the phase stability of BLF in contact with other phases is correlated with the Goldschmidt tolerance factor, in turn determined by the La/Ba ratio, and appropriate doping strategies with oversized cations (Zn2+, Y3+) could improve structural stability. While extensive reactivity and/or interdiffusion was often observed, we put forward that most products of interfacial reactions, including proton-conducting Ba(Ce,Gd)O3−δand mixed-conducting (Ba,La)(Fe,Zr,Y)O3−δ, may not be very detrimental for practical cell operation.

Published
2023
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115. Structure and Oxide Ion Conductivity: Local Order,Defect Interactions and Grain Boundary Effects in Acceptor-Doped Ceria.

Author

Giannici, Francesco, Gregori, Giuliano, Aliotta, Chiara, Longo, Alessandro, Maier, Joachim, and Martorana, Antonino

Subjects
*CRYSTAL structure, *IONIC conductivity, *CRYSTAL defects, *CRYSTAL grain boundaries, *DOPED semiconductors, *CERIUM oxides, *NANOCRYSTALS, *METALLIC oxides
Abstract

Thelong-range and short-range structure of nanocrystalline andmicrocrystalline acceptor-doped ceria is investigated by a combinedapproach using EXAFS, XANES, Raman, and XRD, and correlated with theoxide-ion conductivity in the bulk and in grain boundaries. Comparedto Yb3+and Er3+, the positive influence ofSm3+is attributed to the ability to repel oxygen vacancies,and to keep a localized disorder around the dopant. The long-rangestructural analysis shows lattice contraction for Yb- and Er-dopingand lattice expansion for Sm-doping. The short-range analysis aroundthe dopants and cerium highlights that a more complex structural rearrangementhas to be assumed to explain the complementary results of the differenttechniques. Nominally trivalent dopants are also shown to have aneffect on the electronic structure of ceria, and the consequenceson oxide-ion conductivity are highlighted. [ABSTRACT FROM AUTHOR]

Published
2014
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116. Nickel(II), copper(II) and zinc(II) metallointercalators: structural details of the DNA-binding by a combined experimental and computational investigation.

Author

Lauria, Antonino, Bonsignore, Riccardo, Terenzi, Alessio, Spinello, Angelo, Giannici, Francesco, Longo, Alessandro, Almerico, Anna Maria, and Barone, Giampaolo

Subjects
NICKEL, COPPER, ZINC, COMPLEX compounds, DNA-binding proteins, SCHIFF bases, COMPUTATIONAL chemistry, EXPERIMENTAL design
Abstract

We present a thorough characterization of the interaction of novel nickel(II) (1), copper(II) (2) and zinc(II) (3) Schiff base complexes with native calf thymus DNA (ct-DNA), in buffered aqueous solution at pH 7.5. UV-vis absorption, circular dichroism (CD) and viscometry titrations provided clear evidence of the intercalative mechanism of the three square-planar metal complexes, allowing us to determine the intrinsic DNA-binding constants (Kb), equal to 1.3 × 107, 2.9 × 106, and 6.2 × 105 M−1 for 1, 2 and 3, respectively. Preferential affinity, of one order of magnitude, toward AT compared to GC base pair sequences was detected by UV-vis absorption titrations of 1 with [poly(dG-dC)]2 and [poly(dA-dT)]2. Structural details of the intercalation site of the three metal complexes within [dodeca(dA-dT)]2 were obtained by molecular dynamics (MD) simulations followed by density functional theory/molecular mechanics (DFT/MM) calculations. The calculations revealed that three major intermolecular interactions contribute to the strong affinity between DNA and the three metal complexes: (1) the electrostatic attraction between the two positively charged triethylammoniummethyl groups of the metal complexes and the negatively charged phosphate groups of the DNA backbone; (2) the intercalation of the naphthalene moiety within the four nitrogen bases of the intercalation site; (3) the metal coordination by exocyclic donor atoms of the bases, specifically the carbonyl oxygen and amine nitrogen atoms. Remarkably, the Gibbs formation free energy calculated for the intercalation complexes of 1, 2 and 3 with [dodeca(dA-dT)]2 in the implicit water solution is in agreement with the experimental Gibbs free energy values obtained from the DNA-binding constants as ΔG° = −RT ln(Kb). In particular, the DNA-binding affinity trend, 1 > 2 > 3, is reproduced. Finally, the first shell coordination distances calculated for the intercalation complex 3/[dodeca(dA-dT)]2 are in excellent agreement with the experimental distances extracted from the extended X-ray absorption fine structure (EXAFS) spectrum of the corresponding 3/ct-DNA solutions. The latter results provided the first evidence of metal ion coordination by native DNA in aqueous solution. [ABSTRACT FROM AUTHOR]

Published
2014
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117. Influence of metal–support interaction on the surface structure of gold nanoclusters deposited on native SiOx/Si substrates.

Author

Portale, Giuseppe, Sciortino, Luisa, Albonetti, Cristiano, Giannici, Francesco, Martorana, Antonino, Bras, Wim, Biscarini, Fabio, and Longo, Alessandro

Abstract

The structure of small gold nanoclusters (around 2.5 nm) deposited on different silica-on-silicon (SiOx/Si) substrates is investigated using several characterization techniques (AFM, XRD, EXAFS and GISAXS). The grain morphology and the surface roughness of the deposited gold cluster layers are determined by AFM. The in-plane GISAXS intensity is modelled in order to obtain information about the cluster size and the characteristic length scale of the surface roughness. The surface morphology of the deposited clusters depends on whether the native defect-rich (n-SiOx/Si) or the defect-poor substrate obtained by thermal treatment (t-SiO2/Si) is used. Gold clusters show a stronger tendency to aggregate when deposited on n-SiOx/Si, resulting in films characterized by a larger grain dimension (around 20 nm) and by a higher surface roughness (up to 5 nm). The more noticeable cluster aggregation on n-SiOx/Si substrates is explained in terms of metal–support interaction mediated by the defects located on the surface of the native silica substrate. Evidence of metal–support interaction is provided by EXAFS, demonstrating the existence of an Au–O distance for clusters deposited on n-SiOx/Si that is not found on t-SiO2/Si. [ABSTRACT FROM AUTHOR]

Published
2014
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118. Effects of Grain Boundary Decoration on the Electrical Conduction of Nanocrystalline CeO2.

Author

Lupetin, Piero, Giannici, Francesco, Gregori, Giuliano, Martorana, Antonino, and Maier, Joachim

Subjects
KIRKENDALL effect, NANOCRYSTALS spectra, MESOSCOPIC physics, HEAT conduction, ELECTRIC conductivity
Abstract

In this study, we investigate the effect of decorating the grain boundaries of nanocrystalline undoped ceria on the electrical transport properties. For the decoration, different acceptors (Yb, Y, Bi) were chosen. On decoration, the conduction switches from electronic to ionic. Upon sintering the grains are characterized by a core-shell configuration, in which the core remains undoped while the shell is heavily doped as a consequence of the diffusion of the acceptors toward the grain interior. The shell dominates the overall transport properties of the nanocrystalline ceria and is found to be in the mesoscopic regime. [ABSTRACT FROM AUTHOR]

Published
2012
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120. Metal−Support Interaction and Redox Behavior of Pt(1 wt %)/Ce0.6Zr0.4O2.

Author

Deganello, Giulio, Giannici, Francesco, Martorana, Antonino, Pantaleo, Giuseppe, Prestianni, Antonio, Balerna, Antonella, Liotta, Leonarda F., and Longo, Alessandro

Abstract

The catalyst Pt(1 wt %)/Ce0.6Zr0.4O2 is studied by CO-temperature programmed reduction (CO-TPR), isothermal oxygen storage complete capacity (OSCC), X-ray absorption spectroscopy (XAS) at the Pt LIII edge, and in situ X-ray diffraction (in situ XRD), with the aim of elucidating the role of supported metal in CO oxidation by ceria-based three-way catalysts (TWC). The redox behavior of Pt(1 wt %)/Ce0.6Zr0.4O2 is compared to that of bare ceria-zirconia. OSCC of redox-aged Pt/ceria-zirconia is twice that of bare ceria-zirconia, and the maximum of CO consumption occurs at a temperature about 300 K lower than redox-aged ceria-zirconia. XAS analysis allows one to evidence the formation of a platinum−cerium alloy in redox-aged samples and the stability of the metal particles toward oxidation and sintering during high-temperature treatments. Under CO flux at 773 K, bare ceria-zirconia shows a continuous drift of diffraction peaks toward smaller Bragg angles, due to a progressive increase of Ce(III) content. Under the same treatment, the structural rearrangement of Pt-supported ceria-zirconia starts after an induction time and takes place with an abrupt change of the lattice constant. The experimental evidence points to the role of supported Pt in modifying the redox properties of ceria-zirconia with respect to the bare support. It is proposed that the much faster bulk reduction observed by in situ XRD for redox-aged Pt/ceria-zirconia can be attributed to an easier release of reacted CO2, producing a more effective turnover of reactants at the catalyst surface. [ABSTRACT FROM AUTHOR]

Published
2006
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122. A new cell for the study of in situ chemical reactions using X-ray absorption spectroscopy.

Author

Alessandro Longo, Balerna, Antonella, d'Acapito, Francesco, D'Anca, Fabio, Giannici, Francesco, Liotta, Leonarda F., Pantaleo, Giuseppe, and Martorana, Antonino

Subjects
CHEMICAL reactions, TEMPERATURE measurements, X-ray spectroscopy, SPECTRUM analysis, MICROCLUSTERS, CHEMICAL processes, SPECTRUM analysis instruments
Abstract

An in situ cell for reductive and oxidative treatments at different temperatures that allows the possibility of recording data as a function of temperature has been designed and constructed for X-ray absorption experiments at the GILDA beamline BM08 of ESRF. The cell is linked to a mass quadrupole spectrometer providing control of the reaction gases and monitoring of the products. The apparatus allows measurements to be performed both in transmission and fluorescence geometry. The cell was tested by studying the CO oxidation reaction promoted by a Pt/ceria-zirconia-supported catalyst. The CO2 yield is correlated with the structural results confirming the existence of a strong metal- support interaction between the Pt metal clusters and the ceria-zirconia support. [ABSTRACT FROM AUTHOR]

Published
2005
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123. Highly Stable Thin Films Based on Novel Hybrid 1D (PRSH)PbX 3 Pseudo-Perovskites.

Author

Calabrese, Gabriele, Pipitone, Candida, Marini, Diego, Giannici, Francesco, Martorana, Antonino, Barba, Luisa, Summonte, Caterina, Masciocchi, Norberto, and Milita, Silvia

Subjects
GRAZING incidence, ULTRAVIOLET radiation, POWER density, ELECTRONIC equipment, HUMIDITY, DIMETHYL sulfoxide, THIN films
Abstract

In this study, the structure and morphology, as well as time, ultraviolet radiation, and humidity stability of thin films based on newly developed 1D (PRSH)PbX3 (X = Br, I) pseudo-perovskite materials, containing 1D chains of face-sharing haloplumbate octahedra, are investigated. All films are strongly crystalline already at room temperature, and annealing does not promote further crystallization or film reorganization. The film microstructure is found to be strongly influenced by the anion type and, to a lesser extent, by the DMF/DMSO solvent volume ratio used during film deposition by spin-coating. Comparison of specular X-ray diffraction and complementary grazing incidence X-ray diffraction analysis indicates that the use of DMF/DMSO mixed solvents promotes the strengthening of a dominant 100 or 210 texturing, as compared the case of pure DMF, and that the haloplumbate chains always lie in a plane parallel to the substrate. Under specific DMF/DMSO solvent volume ratios, the prepared films are found to be highly stable in time (up to seven months under fluxing N2 and in the dark) and to highly moist conditions (up to 25 days at 78% relative humidity). Furthermore, for representative (PRSH)PbX3 films, resistance against ultraviolet exposure (λ = 380 nm) is investigated, showing complete stability after irradiation for up to 15 h at a power density of 600 mW/cm2. These results make such thin films interesting for highly stable perovskite-based (opto)electronic devices. [ABSTRACT FROM AUTHOR]

Published
2021
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124. Crystal Structure and Local Dynamics in Tetrahedral Proton-Conducting La1-xBa1+xGaO4

Author

Giannici, Francesco, Messana, Diego, Longo, Alessandro, and Martorana, Antonino

Abstract

La1-xBa1+xGaO4-δ(LBG) compounds, based on unconnected GaO4moieties, were recently proposed as proton conductors. Protonic defects in the lattice are inserted through self-doping with Ba2+, to create oxygen vacancies subsequently filled by hydroxyl ions. We present a combined structural analysis on self-doped LBG using X-ray diffraction (XRD) and X-ray absorption (EXAFS): these results unravel the finer structural details on the short-range and long-range scales, and they are correlated with the dynamical properties of protonic conduction coming from vibrational spectroscopy. The structure of the GaO4groups is independent of the oxide composition. On hydration, an array of short intertetrahedral hydrogen bonds is formed, producing a contraction of the aaxis. On the basis of thermogravimetric analysis, EXAFS, XRD and infrared spectroscopy (IR) results, we propose that the stiffness of the GaO4tetrahedra hinders the intratetrahedral proton transfer, while the noticeable fraction of protons involved in strong hydrogen bonds limit the proton reorientational freedom.

Published
2011
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125. Hydrocarbons removal from wastewater by adsorption onto biochar from Posidonia oceanica

Author

cataldo salvatore, giannici francesco, martorana antonino, muratore nicola, pettignano alberto, ursi federica, cataldo salvatore, giannici francesco, martorana antonino, muratore nicola, pettignano alberto, and ursi federica

Subjects
Biochar, hydrocarbon, bilge water, adsorption, Settore CHIM/03 - Chimica Generale E Inorganica, Settore CHIM/01 - Chimica Analitica
Abstract

Environmental pollution by petroleum derivatives is a very current topic. In particular, low concentration of this kind of pollutants can seriously compromise the life of animals and plants of aquatic ecosystems [1]. For this reason, recent environmental legislation imposes severe restriction to oil-in-water content for overboard discharge with concentration limits from 15 to 5 ppm [2]. The shipping industry is trying to adapt to these directives by equipping ships with cleaning treatment devices in which there are several oil removal steps. Usually, the last step of bilge water treatment is based on adsorption onto suitable adsorbent materials that must be able to remove the last and most dispersed oil fraction reducing its concentration within legal limits. In this work, a biochar obtained from pyrolysis of Posidonia oceanica, a Mediterranean sea plant, has been tested as adsorbent material of a synthetic bilge water. The pristine biochar (BCP) was tested as it was and after two chemical activation treatments with sulfuric acid (BCA) and potassium hydroxide (BCB). The adsorbent materials have been characterized by using different techniques (TGA, SEM-EDAX, FT-IR, etc) and their adsorption capacity was studied by batch and column experiments. Oil concentration measurements were performed by using: HPLC-FLD and TOC techniques.

126. Heterovalent BiIII/PbIIIonic Substitution in One-Dimensional Trimethylsulfoxonium Halide Pseudo-Perovskites (X = I, Br)

Author

Pipitone, Candida, Giannici, Francesco, Martorana, Antonino, García-Espejo, Gonzalo, Carlotto, Silvia, Casarin, Maurizio, Guagliardi, Antonietta, and Masciocchi, Norberto

Abstract

We report on the synthesis and characterization of novel lead and bismuth hybrid (organic–inorganic) iodide and bromide pseudo-perovskites (ABX3) containing the trimethylsulfoxonium cation (CH3)3SO+(TMSO) in the A site, Pb/Bi in the B site, and Br or I as X anions. All of these compounds are isomorphic and crystallize in the orthorhombic Pnmaspace group. Lead-based pseudo-perovskites consist of one-dimensional (1D) chains of face-sharing [PbX6] octahedra, while in the bismuth-based ones, the chains of [BiX6] are interrupted, with one vacancy every third site, leading to a zero-dimensional (0D) local structure based on separated [Bi2I9]3–dimers. Five solid solutions for the iodide with different Pb2+/Bi3+ratios between (TMSO)PbI3and (TMSO)3Bi2I9, and two for the bromide counterparts, were synthetized. Due to the charge compensation mechanism, these systems are best described by the (TMSO)3Pb3xBi2(1–x)I9(x= 0.98, 0.92, 0.89, 0.56, and 0.33) and (TMSO)3Pb3xBi2(1–x)Br9(x= 0.83 and 0.37) formulae. X-ray powder diffraction (XRPD) measurements were employed to determine the crystal structure of all studied species and further used to test the metal cation miscibility within monophasic samples not showing cation segregation. These systems can be described through an ionic defectivity on the pseudo-perovskite B site, where the Pb2+/Bi3+replacement is compensated by one Pb2+vacancy for every Bi3+pair. This leads to a wide range of possible different (numerical and geometrical) chain configurations, leading to the unique features observed in XRPD patterns. The optical band gap of the iodide samples falls in the 2.11–2.74 eV range and decreases upon increasing the Bi3+content. Interestingly, even a very low loading of Bi3+(1%) is sufficient to reduce the band gap substantially from 2.74 to 2.25 eV. Periodic density functional theory (DFT) calculations were used to simulate the atomic and electronic structures of our samples, with predicted band gap trends in good agreement with the experimental ones. This work highlights the structural flexibility of such systems and accurately interprets the ionic defectivity of the different pseudo-perovskite structures.

Published
2021
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127. Salphen metal complexes as potential anticancer agents: interaction profile and selectivity studies toward the three G-quadruplex units in the KIT promoter

Author

Luisa D'Anna, Simona Rubino, Candida Pipitone, Graziella Serio, Carla Gentile, Antonio Palumbo Piccionello, Francesco Giannici, Giampaolo Barone, Alessio Terenzi, D'Anna, Luisa, Rubino, Simona, Pipitone, Candida, Serio, Graziella, Gentile, Carla, Palumbo Piccionello, Antonio, Giannici, Francesco, Barone, Giampaolo, and Terenzi, Alessio

Subjects
Inorganic Chemistry, G-quadruplex, Metal complexes, Salphen, Settore CHIM/03 - Chimica Generale E Inorganica
Abstract

DNA G-rich sequences can organize in four-stranded structures called G-quadruplexes (G4s). These motifs are enriched in significant sites within the human genomes, including telomeres and promoters of cancer related genes. For instance, KIT proto-oncogene promoter, associated with diverse cancers, contains three adjacent G4 units, namely Kit2, SP, and Kitt. Aiming at finding new and selective G-quadruplex binders, we have synthesized and characterized five non-charged metal complexes of Pt(II), Pd(II), Ni(II), Cu(II) and Zn(II) of a chlorine substituted Salphen ligand. The crystal structure of the Pt(II) and Pd(II) complexes was determined by XRPD. FRET measurements indicated that Pt(II) and Pd(II) compounds stabilize Kit1 and Kit2 G4s but not SP, telomeric and double stranded DNA. Spectroscopic investigations (UV-Vis, circular dichroism and fluorescence) suggested the Cu(II) complex as the most G4-selective compound. Interestingly, docking simulations indicate that the synthesized compounds fit groove binding pockets of both Kit1 and Kit2 G4s. Moreover, they exhibited dose-dependent cytotoxic activity in MCF-7, HepG2 and HeLa cancer cells.

Published
2023

128. Structural analysis, phase stability and electrochemical characterization of Nb doped BaCe0.9Y0.1O3−x electrolyte for IT-SOFCs

Author

Di Bartolomeo, Elisabetta, D’Epifanio, Alessandra, Pugnalini, Chiara, Giannici, Francesco, Longo, Alessandro, Martorana, Antonino, and Licoccia, Silvia

Subjects
*STRUCTURAL analysis (Engineering), *ELECTROCHEMISTRY, *NIOBIUM, *SEMICONDUCTOR doping, *ELECTROLYTES, *TEMPERATURE effect, *X-ray diffraction
Abstract

Abstract: To improve the chemical stability of high temperature proton conductors based on barium cerate, electrolyte powders doped with different amounts of niobium were synthesized by the citrate–nitrate auto-combustion method. Pure single phases of BaCe0.9−x Nb x Y0.1O3−x (BCYN, 0.03≤ x ≤0.12) were obtained by thermal treatment at 1000°C. Sintering at 1450°C for 10h produced dense pellets. X-ray absorption spectroscopy allowed to define the dopant ion insertion site and the co-dopant valency. Treatments in pure CO2 atmosphere at 700°C for 3h and subsequent XRD analysis were carried out to probe the chemical stability of the produced electrolytes. The influence of the presence of Nb5+ on conductivity has been investigated by electrochemical impedance spectroscopy (EIS) measurements. Polarization curves were acquired in the 400–750°C temperature range. [Copyright &y& Elsevier]

Published
2012
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129. X-ray Absorption under Operating Conditions for Solid-Oxide Fuel Cells Electrocatalysts: The Case of LSCF/YSZ

Author

Alessandro Longo, Giuliano Gregori, Joachim Maier, Francesco Giannici, Antonino Martorana, Alessandro Chiara, Giannici, Francesco, Gregori, Giuliano, Longo, Alessandro, Chiara, Alessandro, Maier, Joachim, and Martorana, Antonino

Subjects
X-ray absorption spectroscopy, cathode, Materials science, Absorption spectroscopy, XAFS, Oxide, in situ, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, X-ray absorption fine structure, Electrochemical cell, Anode, chemistry.chemical_compound, Chemical engineering, chemistry, SOFC, 0210 nano-technology, Polarization (electrochemistry), Yttria-stabilized zirconia
Abstract

We describe a novel electrochemical cell for X-ray absorption spectroscopy (XAS) experiments during electrical polarization suitable for high-temperature materials such as those used in solid oxide fuel cells. A half-cell LSCF/YSZ was then investigated under cathodic and anodic conditions (850 &deg, C and applied electrical bias ranging from +1 V to &minus, 1 V in air). The in situ XAS measurements allowed us to follow the LSCF degradation into simple oxides. The rapid deterioration of LSCF is ascribed to the formation of excess of oxygen vacancies leading to the collapse of the mixed perovskite structure.

Published
2019

130. Cation Diffusion and Segregation at the Interface between Samarium-Doped Ceria and LSCF or LSFCu Cathodes Investigated with X-ray Microspectroscopy

Author

Vincenzo Buscaglia, Antonino Martorana, Alessandro Chiara, Giovanna Canu, Francesco Giannici, Marianna Gambino, Chiara Aliotta, Alessandro Longo, Giannici, Francesco, Canu, Giovanna, Chiara, Alessandro, Gambino, Marianna, Aliotta, Chiara, Longo, Alessandro, Buscaglia, Vincenzo, and Martorana, Antonino

Subjects
cathode, Materials science, Absorption spectroscopy, X-ray microspectroscopy, chemistry.chemical_element, 02 engineering and technology, Electrolyte, electrolyte, compatibility, 010402 general chemistry, 01 natural sciences, law.invention, interfaces, law, samarium-doped ceria, Lanthanum, General Materials Science, SOFC, Cation diffusion, Doping, 021001 nanoscience & nanotechnology, XANES, Cathode, 0104 chemical sciences, ceria, Samarium, Cerium, chemistry, Chemical engineering, Materials Science (all), 0210 nano-technology, cathodes
Abstract

The chemical compatibility between electrolytes and electrodes is an extremely important aspect governing the overall impedance of solid-oxide cells. Because these devices work at elevated temperatures, they are especially prone to cation interdiffusion between the cell components, possibly resulting in secondary insulating phases. In this work, we applied X-ray microspectroscopy to study the interface between a samarium-doped ceria (SDC) electrolyte and lanthanum ferrite cathodes (La0.4Sr0.6Fe0.8Cu0.2O3(LSFCu); La0.9Sr0.1Fe0.85Co0.15O3(LSCF)), at a submicrometric level. This technique allows to combine the information about the diffusion profiles of cations on the scale of several micrometers, together with the chemical information coming from space-resolved X-ray absorption spectroscopy. In SDC-LSCF bilayers, we find that the prolonged thermal treatments at 1150 °C bring about the segregation of samarium and iron in micrometer-sized perovskite domains. In both SDC-LSCF and SDC-LSFCu bilayers, cerium diffuses into the cathode perovskite lattice A-site as a reduced Ce3+cation, whereas La3+is easily incorporated in the ceria lattice, reaching 30 atom % in the ceria layer in contact with LSFCu.

Published
2017

131. Defect interaction and local structural distortions in Mg-doped LaGaO3: A combined experimental and theoretical study

Author

Frédéric Labat, Antonino Martorana, Francesco Giannici, Stefania Di Tommaso, Marianna Gambino, Alessandro Longo, Carlo Adamo, Gambino, Marianna, Di Tommaso, Stefania, Giannici, Francesco, Longo, Alessandro, Adamo, Carlo, Labat, Frédéric, and Martorana, Antonino

Subjects
Diffraction, Absorption spectroscopy, General Physics and Astronomy, 02 engineering and technology, Crystal structure, 010402 general chemistry, 01 natural sciences, CHEMISTRY, 1ST PRINCIPLES, RAY-ABSORPTION SPECTROSCOPY, BODY DISTRIBUTION-FUNCTIONS, Physical and Theoretical Chemistry, OXIDE FUEL-CELLS, ION CONDUCTIVITY, Perovskite (structure), CONDENSED MATTER, X-ray absorption spectroscopy, ELECTROLYTES, Chemistry, Doping, 021001 nanoscience & nanotechnology, TRANSPORT, 0104 chemical sciences, Crystallography, X-ray crystallography, Density functional theory, 0210 nano-technology, LANTHANUM GALLATE PEROVSKITE
Abstract

A combined experimental and theoretical study of Mg-doped LaGaO3 electrolyte was carried out, with the aim to unveil the interaction between oxygen vacancy (Vo) and perovskite B site cations. LaGaO3 (LG) and LaGa0.875Mg0.125O2.938 (LGM0125) samples were comprehensively characterized by X-ray absorption spectroscopy (XAS) and X-ray diffraction, in order to investigate short- and long-range structures of both undoped and Mg-doped materials. XAS analysis evidenced a preferential Ga-Vo interaction in LGM0125, confirmed by periodic hybrid density functional theory calculations, which were combined with a symmetry-independent classes (SICs) approach in order to (a) obtain a detailed picture of the different Mg and Vo configurations in the doped material and (b) characterize the structural features of the conducting sites. Among the 28 structures of LGM0125 considered in the SIC approach, the Ga-Vo-Ga and Ga-Vo-Mg axial configurations (oriented along the b crystallographic axis) were found to be the most stable. The relative stability of all vacancy configurations considered could be related to geometric distortions of the B-sites, possibly significantly affecting the oxygen-ion diffusion process in such electrolytes.

Published
2017

132. Deciphering the Ce3+ to Ce4+ Evolution: Insight from X-ray Raman Scattering Spectroscopy at Ce N4,5 Edges.

Author

Das SK, Longo A, Bianchi E, Bordenca CV, Sahle CJ, Casaletto MP, Mirone A, and Giannici F

Abstract

Cerium oxide, or ceria, (CeO2) is one of the most studied materials for its wide range of applications in heterogeneous catalysis and energy conversion technologies. The key feature of ceria is the remarkable oxygen storage capacity linked to the switch between Ce4+ and Ce3+ states, in turn creating oxygen vacancies. Changes in the electronic structure occur with oxygen removal from the lattice. Accordingly, the two valence electrons can be accommodated by the reduction of support cations where the electrons can be localized in empty f states of Ce4+ ions nearby. Quantifying the different oxidation states in situ is crucial to understand and model the reaction mechanism. Beside the different techniques to quantify Ce3+ and Ce4+ states, we discuss the use of X-ray Raman Scattering (XRS) spectroscopy as an alternative method. In particular, we show that XRS can observe the oxidation state changes of cerium directly in the bulk of the materials under realistic environmental conditions. The Hilbert++ code is used to simulate the XRS spectra and quantify accurately the Ce3+ and Ce4+ content. These results are compared to those obtained from in situ X-ray Diffraction (XRD) collected in parallel and the differences arising from the two different probes are discussed., (© 2024 Wiley‐VCH GmbH.)

Published
2024
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133. Interface Diffusion and Compatibility of (Ba,La)FeO 3-δ Perovskite Electrodes in Contact with Barium Zirconate and Ceria.

Author

Chiara A, Raimondi G, Merkle R, Maier J, Bordenca CV, Pipitone C, Longo A, and Giannici F

Abstract

Ba 1- x La x FeO 3-δ perovskites (BLF) capable of conducting electrons, protons, and oxygen ions are promising oxygen electrodes for efficient solid oxide cells (fuel cells or electrolyzers), an integral part of prospected large-scale power-to-gas energy storage systems. We investigated the compatibility of BLF with lanthanum content between 5 and 50%, in contact with oxide-ion-conducting Ce 0.8 Gd 0.2 O 2-δ and proton-conducting BaZr 0.825 Y 0.175 O 3-δ electrolytes, annealing the electrode-electrolyte bilayers at high temperature to simulate thermal stresses of fabrication and prolonged operation. By employing both bulk X-ray diffraction and synchrotron X-ray microspectroscopy, we present a space-resolved picture of the interaction between electrode and electrolyte as what concerns cation interdiffusion, exsolution, and phase stability. We found that the phase stability of BLF in contact with other phases is correlated with the Goldschmidt tolerance factor, in turn determined by the La/Ba ratio, and appropriate doping strategies with oversized cations (Zn 2+ , Y 3+ ) could improve structural stability. While extensive reactivity and/or interdiffusion was often observed, we put forward that most products of interfacial reactions, including proton-conducting Ba(Ce,Gd)O 3-δ and mixed-conducting (Ba,La)(Fe,Zr,Y)O 3-δ , may not be very detrimental for practical cell operation.

Published
2023
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134. Molecular Design and Crystal Chemistry of Polyfluorinated Naphthalene-bis-phenylhydrazimides with Superior Thermal and Polymorphic Stability and High Solution Processability.

Author

Abbinante VM, Zambra M, García-Espejo G, Pipitone C, Giannici F, Milita S, Guagliardi A, and Masciocchi N

Abstract

Naphthalene tetracarboxylic diimides (NDIs) are highly promising air-stable n-type molecular semiconductor candidates for flexible and cost-effective organic solar cells and thermoelectrics. Nonetheless, thermal and polymorphic stabilities of environmentally stable NDIs in the low-to-medium temperature regime (<300 °C) remain challenging properties. Structural, thermal, spectroscopic, and computational features of polyfluorinated NDI-based molecular solids (with up to 14 F atoms per NDI molecule) are discussed upon increasing the fluorination level. Slip-stacked arrangement of the NDI cores with suitable π-π stacking and systematically short interplanar distances (<3.2 Å) are found. All these materials exhibit superior thermal stability (up to 260 °C or above) and thermal expansion coefficients indicating a response compatible with flexible polymeric substrates. Optical bandgaps increase from 2.78 to 2.93 eV with fluorination, while LUMO energy levels decrease down to -4.37 eV, as shown per DFT calculations. The compounds exhibit excellent solubility of 30 mg mL -1 in 1,4-dioxane and DMF., (© 2022 Wiley-VCH GmbH.)

Published
2023
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135. Modeling bismuth insertion in 1D hybrid lead halide TMSO(Pb x Bi y )I 3 pseudo-perovskites.

Author

Pipitone C, Ursi F, Giannici F, Longo A, Guagliardi A, Masciocchi N, and Martorana A

Abstract

The structures of the disordered 1D (pseudo-)perovskites of general TMSO(Pb x Bi y )I 3 formulation [TMSO = (CH 3 ) 3 SO + ], obtained by doping the TMSOPbI 3 species with Bi 3+ ions, are investigated through the formulation of a statistical model of correlated disorder, which addresses the sequences of differently occupied BI 6 face-sharing octahedra (B = Pb, Bi or vacant site) within ideally infinite [(BI 3 ) - ] n chains. The x-ray diffraction patterns simulated on the basis of the model are matched to the experimental traces, which show many broad peaks with awkward (nearly trapezoidal) shapes, under the assumption that the charge balance is fully accomplished within each chain. The analysis allowed to establish a definite tendency of the metal species to cluster as pure Pb and Bi sequences. The application of the model is discussed critically, in particular as what concerns the possibility that further B-site neighbors beyond the second may influence the overall B-site occupancies., (© 2022 IOP Publishing Ltd.)

Published
2022
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136. A real-space approach to the analysis of stacking faults in close-packed metals: G(r) modelling and Q-space feedback.

Author

Longo A, Giannici F, Sciortino L, and Martorana A

Abstract

An R-space approach to the simulation and fitting of a structural model to the experimental pair distribution function is described, to investigate the structural disorder (distance distribution and stacking faults) in close-packed metals. This is carried out by transferring the Debye function analysis into R space and simulating the low-angle and high-angle truncation for the evaluation of the relevant Fourier transform. The strengths and weaknesses of the R-space approach with respect to the usual Q-space approach are discussed.

Published
2020
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137. Theoretical insights into inorganic-organic intercalation products of the layered perovskite HLaNb 2 O 7 : perspectives for hybrid proton conductors.

Author

Di Tommaso S, Giannici F, Mossuto Marculescu A, Chiara A, Tealdi C, Martorana A, Labat F, and Adamo C

Abstract

The modification of metal oxide surfaces with organic moieties has been widely studied as a method of preparing organic-inorganic hybrid materials for various applications. Among the inorganic oxides, ion-exchangeable layered perovskites are particularly interesting, because of their appealing electronic and reactive properties. In particular, their protonated interlayer surface can be easily functionalized with organic groups allowing the production of stable hybrid materials. As a further step in the design of new inorganic-organic hybrid proton conductors, a combined experimental and theoretical study of two intercalated compounds (propanol and imidazole) in HLaNb2O7 is presented here. A generally very good agreement with the available experimental data is found in reproducing both structural features and 13C-NMR chemical shifts, and marked differences between the two considered intercalated compounds are evidenced, with possible important outcomes for proton conduction. Notably, the free imidazole molecules are easily protonated by the acidic protons present in the interlayer spacing, thus inhibiting an efficient charge transport mechanism. In order to overcome this problem, a model system has been considered, where the imidazoles are bound to the end of a butyl chain, the whole being intercalated between two perovskite layers. The obtained theoretical data suggest that, in such a system, proton transfer between two adjacent imidazoles is a barrierless process. These results could then open new perspectives for such hybrid proton conductors.

Published
2019
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138. Supramolecular Hydro- and Ionogels: A Study of Their Properties and Antibacterial Activity.

Author

Rizzo C, Arrigo R, Dintcheva NT, Gallo G, Giannici F, Noto R, Sutera A, Vitale P, and D'Anna F

Subjects
Anti-Bacterial Agents pharmacology, Gram-Negative Bacteria drug effects, Gram-Positive Bacteria drug effects, Imidazoles chemistry, Ionic Liquids chemistry, Microbial Sensitivity Tests, Microscopy, Electron, Scanning, Rheology, Solvents chemistry, X-Ray Diffraction, Anti-Bacterial Agents chemistry, Gels chemistry
Abstract

Diimidazolium-based organic salts, bearing peptides or amino acids as anions have been synthesised and tested for their gelling ability in biocompatible solvents. These low molecular weight salts were successfully used as gelators in phosphate buffered saline (PBS) solution and ionic liquids. Then, the properties of the obtained soft materials were analysed in terms of melting temperature and gel strength as accounted for by rheological investigations. The gel-phase formation was studied by using UV/Vis and resonance light scattering measurements, whereas the morphology of the soft materials was analysed by using polarised optical microscopy and scanning electron microscopy. To get information about the organisation of the gelator in the gelatinous matrix, X-ray diffraction measurements were performed both on the neat gelators and their gels. The results collected show that the properties of the gel phases, like the thermal stability, the self-repairing ability, the resistance to flow as well as the morphology, are dependent on the nature of the anion. Furthermore, bioassays revealed that the obtained diimidazolium organic salts possessed antimicrobial activity, against gram-negative and gram-positive tester strains. In particular and noteworthy, the diimidazolium organic salts exert a bactericidal capability, which was retained even if they are included in the gel phase. Thus, a novel kind of bioactive soft material was obtained that could be fruitfully employed as a non-covalent coating exerting antibacterial capability., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2017
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139. Defect interaction and local structural distortions in Mg-doped LaGaO 3 : A combined experimental and theoretical study.

Author

Gambino M, Di Tommaso S, Giannici F, Longo A, Adamo C, Labat F, and Martorana A

Abstract

A combined experimental and theoretical study of Mg-doped LaGaO 3 electrolyte was carried out, with the aim to unveil the interaction between oxygen vacancy (Vo) and perovskite B site cations. LaGaO 3 (LG) and LaGa 0.875 Mg 0.125 O 2.938 (LGM0125) samples were comprehensively characterized by X-ray absorption spectroscopy (XAS) and X-ray diffraction, in order to investigate short- and long-range structures of both undoped and Mg-doped materials. XAS analysis evidenced a preferential Ga-Vo interaction in LGM0125, confirmed by periodic hybrid density functional theory calculations, which were combined with a symmetry-independent classes (SICs) approach in order to (a) obtain a detailed picture of the different Mg and Vo configurations in the doped material and (b) characterize the structural features of the conducting sites. Among the 28 structures of LGM0125 considered in the SIC approach, the Ga-Vo-Ga and Ga-Vo-Mg axial configurations (oriented along the b crystallographic axis) were found to be the most stable. The relative stability of all vacancy configurations considered could be related to geometric distortions of the B-sites, possibly significantly affecting the oxygen-ion diffusion process in such electrolytes.

Published
2017
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140. Metal-support interaction and redox behavior of Pt(1 wt %)/Ce0.6Zr0.4O2.

Author

Deganello G, Giannici F, Martorana A, Pantaleo G, Prestianni A, Balerna A, Liotta LF, and Longo A

Abstract

The catalyst Pt(1 wt %)/Ce(0.6)Zr(0.4)O(2) is studied by CO-temperature programmed reduction (CO-TPR), isothermal oxygen storage complete capacity (OSCC), X-ray absorption spectroscopy (XAS) at the Pt L(III) edge, and in situ X-ray diffraction (in situ XRD), with the aim of elucidating the role of supported metal in CO oxidation by ceria-based three-way catalysts (TWC). The redox behavior of Pt(1 wt %)/Ce(0.6)Zr(0.4)O(2) is compared to that of bare ceria-zirconia. OSCC of redox-aged Pt/ceria-zirconia is twice that of bare ceria-zirconia, and the maximum of CO consumption occurs at a temperature about 300 K lower than redox-aged ceria-zirconia. XAS analysis allows one to evidence the formation of a platinum-cerium alloy in redox-aged samples and the stability of the metal particles toward oxidation and sintering during high-temperature treatments. Under CO flux at 773 K, bare ceria-zirconia shows a continuous drift of diffraction peaks toward smaller Bragg angles, due to a progressive increase of Ce(III) content. Under the same treatment, the structural rearrangement of Pt-supported ceria-zirconia starts after an induction time and takes place with an abrupt change of the lattice constant. The experimental evidence points to the role of supported Pt in modifying the redox properties of ceria-zirconia with respect to the bare support. It is proposed that the much faster bulk reduction observed by in situ XRD for redox-aged Pt/ceria-zirconia can be attributed to an easier release of reacted CO(2), producing a more effective turnover of reactants at the catalyst surface.

Published
2006
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141. A new cell for the study of in situ chemical reactions using X-ray absorption spectroscopy.

Author

Longo A, Balerna A, d'Acapito F, D'Anca F, Giannici F, Liotta LF, Pantaleo G, and Martorana A

Subjects
Carbon Dioxide chemistry, Catalysis, Flow Injection Analysis methods, Oxidation-Reduction, Oxygen chemistry, Platinum chemistry, Specimen Handling methods, Spectrometry, X-Ray Emission methods, Temperature, X-Ray Diffraction methods, Zirconium chemistry, Carbon Dioxide analysis, Flow Injection Analysis instrumentation, Oxygen analysis, Specimen Handling instrumentation, Spectrometry, X-Ray Emission instrumentation, X-Ray Diffraction instrumentation
Abstract

An in situ cell for reductive and oxidative treatments at different temperatures that allows the possibility of recording data as a function of temperature has been designed and constructed for X-ray absorption experiments at the GILDA beamline BM08 of ESRF. The cell is linked to a mass quadrupole spectrometer providing control of the reaction gases and monitoring of the products. The apparatus allows measurements to be performed both in transmission and fluorescence geometry. The cell was tested by studying the CO oxidation reaction promoted by a Pt/ceria-zirconia-supported catalyst. The CO(2) yield is correlated with the structural results confirming the existence of a strong metal-support interaction between the Pt metal clusters and the ceria-zirconia support.

Published
2005
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