86 results on '"Francesco Giannici"'
Search Results
2. Highly Stable Thin Films Based on Novel Hybrid 1D (PRSH)PbX3 Pseudo-Perovskites
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Gabriele Calabrese, Candida Pipitone, Diego Marini, Francesco Giannici, Antonino Martorana, Luisa Barba, Caterina Summonte, Norberto Masciocchi, and Silvia Milita
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hybrid-halide perovskites ,1D perovskites ,GIXD ,SEM imaging ,thin films ,humidity resistant ,Chemistry ,QD1-999 - 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.
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- 2021
- Full Text
- View/download PDF
3. Modelling the structural disorder in trigonal-prismatic coordinated transition metal dichalcogenides
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Federica Ursi, Simone Virga, Candida Pipitone, Alessandra Sanson, Alessandro Longo, Francesco Giannici, and Antonino Martorana
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General Biochemistry, Genetics and Molecular Biology - Abstract
Trigonal-prismatic coordinated transition metal dichalcogenides (TMDCs) are formed from stacked (chalcogen)–(transition metal)–(chalcogen) triple layers, where the chemical bond is covalent within the triple layers and van der Waals (vdW) forces are effective between the layers. Bonding is at the origin of the great interest in these compounds, which are used as 2D materials in applications such as catalysis, electronics, photoelectronics, sensors, batteries and thermoelectricity. This paper addresses the issue of modelling the structural disorder in multilayer TMDCs. The structural model takes into account stacking faults, correlated displacement of atoms and average crystallite size/shape, and is assessed by simulation of the X-ray diffraction pattern and fitting to the experimental data relative to a powdered sample of MoS2 exfoliated and restacked via lithiation. From fitting, an average crystallite size of about 50 Å, nearly spherical crystallites and a definite probability of deviation from the fully eclipsed atomic arrangement present in the ordered structure are determined. The increased interlayer distance and correlated intralayer and interlayer atomic displacement are attributed to the presence of lithium intercalated in the vdW gap between triple layers (Li/Mo molar ratio of about 0.06). The model holds for the whole class of trigonal-prismatic coordinated TMDCs, and is suitably flexible to take into account different preparation routes.
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- 2023
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4. Dynamic Role of Gold d-Orbitals during CO Oxidation under Aerobic Conditions
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Alessandro Longo, Francesco Giannici, Maria Pia Casaletto, Mauro Rovezzi, Christoph J. Sahle, Pieter Glatzel, Yves Joly, Antonino Martorana, Longo A., Giannici F., Casaletto M.P., Rovezzi M., Sahle C.J., Glatzel P., Joly Y., and Martorana A.
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d-bands ,Au/CeO2 ,Settore CHIM/03 - Chimica Generale E Inorganica ,in situ ,General Chemistry ,CO oxidation ,XANES ,Catalysis ,HERFD - Abstract
High-energy-resolution fluorescence detection-X-ray absorption near-edge structure (HERFD-XANES) at the Au L3 edge was used to study gold catalysts supported on ceria in order to unravel the role of gold 5d orbital modifications during the activation of molecular oxygen. The variations in the HERFD-XANES resonance peak, which are directly correlated with the d-band occupancy, were monitored in situ during the redox process of the CO oxidation at room temperature under both aerobic and anaerobic conditions. Interestingly, upon the oxidation treatment and also during the aerobic CO oxidation treatment, the gold d-band fluctuates around an average value, proving that the gold clusters are partially charged. The dynamism of the gold electronic configuration was evidenced by a temporary variation of the gold d-orbital population during the oxidation reaction. The interpretation of X-ray spectroscopy data is supported by ab initio simulations performed using the FDMNES code.
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- 2022
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5. Salphen metal complexes as potential anticancer agents: interaction profile and selectivity studies toward the three G-quadruplex units in the KIT promoter
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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
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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.
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- 2023
6. Molecular Design and Crystal Chemistry of Polyfluorinated Naphthalene‐bis‐phenylhydrazimides with Superior Thermal and Polymorphic Stability and High Solution Processability
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Vincenzo Mirco Abbinante, Marco Zambra, Gonzalo García‐Espejo, Candida Pipitone, Francesco Giannici, Silvia Milita, Antonietta Guagliardi, and Norberto Masciocchi
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Organic Chemistry ,General Chemistry ,Catalysis - 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 p-p 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 band-gaps increase from 2.78 to 2.93 eV with fluorination, while LUMO energy levels decrease down to -4.37 eV, as per DFT calculations. The compounds exhibit excellent solubility of 30 mg mL-1 in 1,4-dioxane and DMF.
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- 2023
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7. Beeswax/halloysite microparticles embedded within a geopolymeric layer for the protective coating of steel
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Martina Maria Calvino, Lorenzo Lisuzzo, Giuseppe Cavallaro, Giuseppe Lazzara, Candida Pipitone, Francesco Giannici, Maria Calvino M., Lisuzzo L., Cavallaro G., Lazzara G., Pipitone C., and Giannici F.
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Mechanics of Materials ,Mechanical Engineering ,Halloysite, Geopolymer, Coating ,General Materials Science ,Condensed Matter Physics ,Settore CHIM/02 - Chimica Fisica - Abstract
A halloysite-based geopolymer filled with microwax particles was designed as a protective layer on steel substrates. Beeswax microparticles were obtained from the clay stabilized Pickering emulsions and they were homogeneously dispersed within the geopolymeric network, thus improving the coating physico-chemical properties. Specifically, this treatment changed the steel's wettability by increasing its hydrophobicity. Moreover, XRF analysis was conducted in order to have details on the chemical compositions.
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- 2023
8. Long-Term Stability of TiS
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Federica, Ursi, Simone, Virga, Gonzalo, Garcìa-Espejo, Norberto, Masciocchi, Antonino, Martorana, and Francesco, Giannici
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Layered TiS
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- 2022
9. X‐Ray Absorption Spectroscopy and X‐Ray Raman Scattering Spectroscopy for Energy Applications
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Alessandro Longo, Francesco Giannici, and Christoph J. Sahle
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X-ray absorption spectroscopy ,X-ray Raman scattering ,Materials science ,Analytical chemistry ,Spectroscopy ,Energy (signal processing) - Published
- 2021
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10. The structural versatility of proton sponge bismuth halides
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Gonzalo García-Espejo, Candida Pipitone, Francesco Giannici, Norberto Masciocchi, Garcia-Espejo G., Pipitone C., Giannici F., and Masciocchi N.
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Inorganic Chemistry ,Bismuth halides ,Powder diffraction ,Settore CHIM/03 - Chimica Generale E Inorganica ,Crystal structure ,Proton sponge ,Synchrotron X-rays ,Materials Chemistry ,Ceramics and Composites ,Physical and Theoretical Chemistry ,Condensed Matter Physics ,Electronic, Optical and Magnetic Materials - Abstract
Hybrid halometalates containing lead, tin, bismuth and antimony and organic cations have recently shown a bevy of interesting photophysical properties. Aiming at finding chemically stable and thermally inert species, three halobismutate species of this class, crystallized with proton sponge-derived cations (PRSH), have been isolated as microcrystalline powders by mixing 1,8-bis(dimethylamino)-naphthalene (proton sponge, or PRS) and bismuth oxide in concentrated HX acids (X = Cl, Br and I). The two isomorphous (PRSH)3Bi2X9 (X = Br, I) species, containing isolated [Bi2X9]3- anions, are triclinic at room temperature and convert upon heating into a monoclinic structure through a displacive phase transformation, fully reversible for X = I and only partially for X = Br. At variance, (PRSH)BiCl4 is polymeric, and contains extended zigzagging 1D chains formed by edge-sharing BiCl6 octahedra. These species were extensively studied by synchrotron and laboratory X-ray powder diffraction measurements, which enabled to detect the evolution toward the two high-temperature β-phases (X = Br, I), to derive the structure of five different (significantly complex) species and to assess the thermal strain tensors in the different regimes. Additional thermal, spectroscopic and computational analyses completed the characterization of these materials.
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- 2022
11. Proton sponge lead halides containing 1D polyoctahedral chains
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Silvia Milita, Antonietta Guagliardi, Francesco Giannici, Antonino Martorana, Gabriele Calabrese, Federica Bertolotti, Candida Pipitone, Norberto Masciocchi, Pipitone C., Giannici F., Martorana A., Bertolotti F., Calabrese G., Milita S., Guagliardi A., and Masciocchi N.
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Materials science ,1D-pseudo perovskite ,Band gap ,General Chemistry ,Crystal structure ,Condensed Matter Physics ,Crystal ,hybrid lead halides, trimethylsulfoxonium, powder diffraction, solid solution, ionic defectivity, periodic DFT calculations ,Crystallography ,Octahedron ,Phase (matter) ,General Materials Science ,Orthorhombic crystal system ,Thermal stability ,Isostructural - Abstract
Hybrid one-dimensional lead halides, containing the protonated 1,8-bis(dimethylamino)naphthalene moiety (C14H19N2, monoprotonated "proton sponge"), were prepared by simple one-pot methods and investigated in terms of crystal structure, morphology, thermal stability and electronic properties. The as-precipitated (C14H19N2)PbBr3 and (C14H19N2)PbI3 species are isostructural and crystallize in the orthorhombic Pbca space group, resulting in 1D crystal phases with ([PbX3](-))(infinity) chains (built by face-sharing [PbX6] octahedra; X = Br, I), among which the (C14H19N2)(+) cations are inserted. The two compounds display complete miscibility in the solid state: both (C14H19N2)PbI2Br and (C14H19N2)PbIBr2 crystal phases were successfully synthetized and do not show segregation effects. TGA and DSC measurements showed that, while all these materials are stable up to 250 degrees C, the iodine-rich (C14H19N2)PbI3 and (C14H19N2)PbI2Br species undergo an irreversible phase transition around 220 degrees C to a high-temperature phase, with a smaller molar volume and an apparent symmetry lowering (to orthorhombic Pca2(1)). In these two cases, variable-temperature X-ray diffraction measurements showed a substantial crystal-to-crystal transformation, without intermediate melting or amorphization. The thermal expansion coefficients of (C14H19N2)PbI3 and (C14H19N2)PbBr3 are highly anisotropic and on the order of 10(-4) K-1 along the b crystallographic axis. Microscopic and spectroscopic measurements were performed to complement the structural analysis of the samples: band gaps in the near UV range (3.3 and 3.8 eV for (C14H19N2)PbI3 and (C14H19N2)PbBr3, respectively) were obtained.
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- 2021
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12. Solid–Solid Interfaces in Protonic Ceramic Devices: A Critical Review
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Alessandro Chiara, Marianna Gambino, Chiara Aliotta, Candida Pipitone, Francesco Giannici, Antonino Martorana, Alessandro Longo, Chiara A., Giannici F., Pipitone C., Longo A., Aliotta C., Gambino M., and Martorana A.
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Materials science ,H-SOC ,solid−solid interfaces ,Nanotechnology ,02 engineering and technology ,Review ,advanced characterization ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,PCFC ,0104 chemical sciences ,H-SOFC ,ab initio modeling ,visual_art ,visual_art.visual_art_medium ,General Materials Science ,Ceramic ,0210 nano-technology ,solid-solid interfaces ,Composition (language) ,protonic ceramic cells ,H-SOEC - Abstract
The literature concerning protonic ceramic devices is critically reviewed focusing the reader's attention on the structure, composition, and phenomena taking place at solid-solid interfaces. These interfaces play a crucial role in the overall device performance, and the relevance of understanding the phenomena taking place at the interfaces for the further improvement of electrochemical protonic ceramic devices is therefore stressed. The grain boundaries and heterostructures in electrolytic membranes, the electrode-electrolyte contacts, and the interfaces within composite anode and cathode materials are all considered, with specific concern to advanced techniques of characterization and to computational modeling by ab initio approaches. An outlook about future developments and improvements highlights the necessity of a deeper insight into the advanced analysis of what happens at the solid-solid interfaces and of in situ/operando investigations that are presently sporadic in the literature on protonic ceramic devices.
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- 2020
13. A real-space approach to the analysis of stacking faults in close-packed metals: G(r) modelling and Q-space feedback
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Francesco Giannici, Luisa Sciortino, Antonino Martorana, and Alessandro Longo
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Physics ,Truncation ,Mathematical analysis ,Stacking ,Pair distribution function ,Condensed Matter Physics ,Space (mathematics) ,Biochemistry ,Inorganic Chemistry ,symbols.namesake ,Fourier transform ,Distribution (mathematics) ,Structural Biology ,symbols ,General Materials Science ,Debye function ,Physical and Theoretical Chemistry - 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.
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- 2020
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14. Modeling bismuth insertion in 1D hybrid lead halide TMSO(Pb
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Candida, Pipitone, Federica, Ursi, Francesco, Giannici, Alessandro, Longo, Antonietta, Guagliardi, Norberto, Masciocchi, and Antonino, Martorana
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The structures of the disordered 1D (pseudo-)perovskites of general TMSO(Pb
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- 2022
15. Hydrocarbons removal from synthetic bilge water by adsorption onto biochars of dead Posidonia oceanica
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Salvatore Cataldo, Nicola Muratore, Francesco Giannici, David Bongiorno, Vitaliano Chiodo, Susanna Maisano, Alberto Pettignano, Cataldo S., Muratore N., Giannici F., Bongiorno D., Chiodo V., Maisano S., and Pettignano A.
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Biochar ,Hydrocarbon ,Health, Toxicology and Mutagenesis ,Posidonia oceanica ,Environmental Chemistry ,Adsorption ,General Medicine ,Pollution ,Bilge water - Abstract
Bilge waters are wastewaters produced on boats during navigation and usually contain hydrocarbons and oils. They cannot be directly released into the sea if not below a hydrocarbons concentration limit set by current legislation. Appropriate oil in water separator (OWS) systems can be installed on board boats to remove hydrocarbons from bilge water allowing their spillage into the sea. These systems may contain an adsorption step on a suitable adsorbent. Here, biochars produced from pyrolysis of dead Posidonia oceanica, pristine or chemically activated, have been tested as hydrocarbons adsorbents. Adsorption experiments with aqueous dispersions simulating bilge waters containing a marine gas oil (MGO) fuel for boats, a surfactant, and different NaCl concentrations were carrying out. The hydrocarbons concentrations before and after adsorption have been directly measured by using the reverse phase HPLC technique coupled with a fluorescence detector. These measurements are very fast and their reliability was verified by re-measuring the hydrocarbons concentrations of some samples with the GC–MS-MS technique, according to one of the traditional methods for hydrocarbons determination in emulsions. Different isotherm equations were used to fit the adsorption data. The biochars were characterized from the chemical-structural point of view by means of several instrumental techniques.
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- 2022
16. Bi3+doping in 1D ((CH3)3SO)PbI3: A model for defect interactions in halide perovskites
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Candida Pipitone, Silvia Carlotto, Maurizio Casarin, Alessandro Longo, Antonino Martorana, Francesco Giannici, Pipitone C., Carlotto S., Casarin M., Longo A., Martorana A., and Giannici F.
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Point defect ,Lead compound ,Absorption spectroscopy ,Solid solution ,Solubility ,Settore CHIM/03 - Chimica Generale E Inorganica ,Materials Chemistry ,General Chemistry ,Optoelectronic device ,Electronic propertie - Abstract
The recently described monodimensional hybrid pseudo-perovskite ((CH3)3SO)PbI3 exhibits complete Pb2+/Bi3+ miscibility in the B site. Heterovalent substitution imposes that charge-compensating defects are introduced in the lattice as well. This paper reports the energetics of point defects and the interaction between charge-compensating defects that occur upon Bi3+ doping in ((CH3)3SO)PbI3. Periodic DFT simulations were employed to analyze the formation energy of Pb2+ vacancies, (CH3)3SO+ vacancies, iodide vacancies, or the insertion of interstitial iodide ions. Solid solutions with a large Bi3+ content were modeled considering different charge compensation defects (Pb2+ vacancies, (CH3)3SO+ vacancies, and interstitial iodide) to consider electrical neutrality. Both the formation energy evaluation and the structural parameters after relaxation are in very good agreement with available experimental data (both X-ray diffraction and absorption spectroscopy), confirming that Pb2+ vacancies are indeed the primary ionic charge-compensation mechanism leading to solid solutions described by the formula ((CH3)3SO)3Pb3xBi2(1-x)V(1-x)I9 (0 < x < 1), where V indicates a B site vacancy. As a consequence of the complete miscibility, the defect concentration at intermediate compositions is considerable, and it is probably responsible for various peculiar structural effects observed, e.g., in ((CH3)3SO)3Pb0.99Bi1.34I9, which are related to short-range order phenomena in the chain composition. Atomistic simulations were then carried out to estimate defect-defect interactions as a function of their respective positions inside the linear PbI6/BiI6 octahedral chains. The resulting bond energies for atom pairs and triads effectively explain the relative stability of defect clusters. This approach is expected to shed light on the short-range order in this class of doped materials, but it can be extended to other structures as well. The understanding of defect structures and control of structural and electronic properties have implications for the engineering of doped materials, which find vast applications in optoelectronic devices.
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- 2022
17. Solid-state compatibility of Ca:LaNbO4 with perovskite cathodes: Evidences from X-ray microspectroscopy
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Candida Pipitone, Alessandro Longo, Alessandro Chiara, Antonino Martorana, Giovanna Canu, Francesco Giannici, Chiara A., Canu G., Longo A., Pipitone C., Martorana A., and Giannici F.
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cathode ,Materials science ,Absorption spectroscopy ,General Chemical Engineering ,Niobium ,chemistry.chemical_element ,Positive ion ,electrolyte ,interfaces ,chemistry.chemical_compound ,chemical compatibility ,Lanthanum ,scheelite ,solid oxide fuel cell ,Electrochemistry ,x-ray microspectroscopy ,SOFC ,lanthanum strontium cobaltite ,perovskite ,Perovskite (structure) ,Compatibility (geochemistry) ,Cobaltite ,Chemical state ,chemistry ,Chemical engineering ,Niobium compound ,Strontium ,Settore CHIM/03 - Chimica Generale E Inorganica ,LaNbO4 ,X ray absorption spectroscopy ,lanthanum strontium ferrite ,Calcium ,Cobalt ,lanthanum niobate - Abstract
The solid-state compatibility between calcium-doped lanthanum niobate and three perovskite cathode materials was investigated using two X-ray microbeam techniques, micro X-ray fluorescence and micro X-ray absorption spectroscopy. The cathode powders (lanthanum strontium ferrite, either cobalt or copper-doped, and lanthanum strontium cobaltite) in contact with the dense electrolyte pellet were annealed at 1150 degrees C for 12-144 h to simulate the effect of thermal stresses due to fabrication and long-term operation. As a result, several interdiffusion phenomena were then observed on the bilayer cross-sections: in particular, the chemical state and coordination environment of calcium, iron, niobium and lanthanum were probed with space-resolved X-ray absorption spectroscopy. The ab initio modeling of the near-edge X-ray absorption spectra reveal that the cation interdiffusion is facilitated by the structural flexibility of the perovskite structure, which is able to accommodate a variety of foreign cations in different oxidation states. Limited stability at high-temperatures was found for all candidate perovskite compositions in contact with lanthanum niobate. (C) 2021 Elsevier Ltd. All rights reserved.
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- 2022
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18. Highly Stable Thin Films Based on Novel Hybrid 1D (PRSH)PbX3 Pseudo-Perovskites
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Silvia Milita, Diego Marini, Luisa Barba, Candida Pipitone, Gabriele Calabrese, Francesco Giannici, Norberto Masciocchi, Antonino Martorana, Caterina Summonte, Calabrese G., Pipitone C., Marini D., Giannici F., Martorana A., Barba L., Summonte C., Masciocchi N., and Milita S.
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Materials science ,hybrid-halide perovskites ,Annealing (metallurgy) ,GIXD ,General Chemical Engineering ,Analytical chemistry ,Substrate (electronics) ,Microstructure ,1D perovskites ,humidity resistant ,Article ,Humidity resistant ,Hybrid-halide perovskites ,SEM imaging ,Thin films ,law.invention ,Chemistry ,thin films ,law ,Settore CHIM/03 - Chimica Generale E Inorganica ,General Materials Science ,Irradiation ,Thin film ,Crystallization ,QD1-999 ,Deposition (law) ,Perovskite (structure) - 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.
- Published
- 2021
19. Synchrotron Radiation-Based Micro-XANES and Micro-XRF Study of Unsuccessfully Produced Egyptian Blue from the Late Hellenistic Production Site of Kos (Dodecanese, Greece)
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Wout De Nolf, Francesco Giannici, Marine Cotte, Francesco Caruso, Ariadne Kostomitsopoulou Marketou, Søren Handberg, University of Oslo (UiO), Università degli studi di Palermo - University of Palermo, European Synchroton Radiation Facility [Grenoble] (ESRF), European Synchrotron Radiation Facility (ESRF), Laboratoire d'Archéologie Moléculaire et Structurale (LAMS), Institut de Chimie du CNRS (INC)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Kostomitsopoulou Marketou A., Giannici F., Handberg So., De Nolf W., Cotte M., and Caruso F.
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Cuprite ,Absorption spectroscopy ,Mineralogy ,Synchrotron radiation ,Large dataset ,01 natural sciences ,Fluorescence spectroscopy ,Article ,Analytical Chemistry ,Synchrotron ,Egyptian blue ,chemistry.chemical_compound ,0601 history and archaeology ,[SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology ,Copper oxide ,Spectroscopy ,X ray absorption ,060102 archaeology ,Greece ,Chemistry ,X ray absorption near edge structure spectroscopy ,Oxide mineral ,Silicates ,010401 analytical chemistry ,06 humanities and the arts ,XANES ,0104 chemical sciences ,X-Ray Absorption Spectroscopy ,Beamline ,visual_art ,visual_art.visual_art_medium ,Scanning electron microscopy ,Copper ,Synchrotrons - Abstract
International audience; This paper examines the production technology of Egyptian blue, an ancient artificial pigment, through the investigation of an unsuccessfully produced pellet derived from the Hellenistic production site of Kos (Dodecanese, Greece). This heterogeneous material was investigated by a combination of laboratory and synchrotron radiation-based (SR) techniques: scanning electron microscopy coupled with energy-dispersive Xray spectrometry, micro-Raman spectroscopy, high-resolution SR micro-X-ray fluorescence spectroscopy, and SR micro-X-ray absorption near-edge structure spectroscopy (XANES), at the ID21 beamline of the European Synchrotron Radiation Facility. Principal component analysis of a large dataset of 171 micro-XANES spectra acquired on the archaeological samples and on a series of reference copper compounds emphasizes high variations of XANES features due to different speciation and also orientation effects, as demonstrated by the simulated XANES spectra. The results indicate that, rather than inadequate firing temperatures that could have led to the reddish cuprite (Cu 2 O), unsuccessful production may occur due to the use of inappropriate starting materials, which contain an unusually high iron content. The contextual interpretation underlines the intertwined relationship between the production of Egyptian blue and metallurgy.
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- 2021
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20. Conformationally rigid molecular and polymeric naphthalene-diimides containing C6H6N2 constitutional isomers
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Gonzalo García-Espejo, Diego Marini, Francesco Giannici, Gabriele Calabrese, Norberto Masciocchi, Candida Pipitone, Luisa Barba, Antonietta Guagliardi, Silvia Milita, Vincenzo Mirco Abbinante, Abbinante V.M., Garcia-Espejo G., Calabrese G., Milita S., Barba L., Marini D., Pipitone C., Giannici F., Guagliardi A., and Masciocchi N.
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Materials science ,X ray diffraction ,Stacking ,02 engineering and technology ,010402 general chemistry ,01 natural sciences ,NDI ,Ultraviolet visible spectroscopy ,Materials Chemistry ,Structural isomer ,Molecule ,Thermal stability ,Thin film ,Polymer ,Crystallinity ,Alkyl ,Amine ,Thin film solar cell ,chemistry.chemical_classification ,Organic electronics ,Spin coating ,General Chemistry ,021001 nanoscience & nanotechnology ,0104 chemical sciences ,Energy gap ,Isomer ,Nondestructive examination ,Crystallography ,chemistry ,0210 nano-technology ,Stability ,Naphthalene - Abstract
Organic thin films based on naphthalenediimides (NDIs) bearing alkyl substituents have shown interesting properties for application in OLEDs, thermoelectrics, solar cells, sensors and organic electronics. However, the polymorphic versatility attributed to the flexibility of alkyl chains remains a challenging issue, with detrimental implications on the performances. Aryl analogues containing C6H6N2 constitutional isomers are herein investigated as one of the possible way-out strategies. The synthesis of molecular and polymeric species is described, starting from naphthaleneteracarboxyldianhydride with isomeric aromatic amines and hydrazine. The materials are fully characterized by spectroscopy, thermal and structural X-ray diffraction methods, both as bulk powders and thin films, revealing a rich structural landscape. Depending on the stereochemistry of the branching aryls, the compounds show a variety of parallel stacking of the NDI cores, and high structural stability upon heating, up to 560 °C in the polymeric form. Thin films prepared by spin coating from organic solvent solutions and studied by grazing-incidence X-ray diffraction exhibit a high degree of crystallinity indicating the intrinsic tendency of these molecules to self-assemble in an ordered fashion without the need for any post-processing technique. In line with other NDI-based diimides, UV-vis spectroscopy indicates the optical band gaps falling in the visible region (2.87-3.02 eV). DFT calculations reveal a significant lowering of the frontier orbital energies of the hydrazido derivative. Beyond solution processing, the high thermal stability and the absence of polymorphic forms of these materials suggest that sublimation-based routes for films and device preparation can also be followed. This journal is
- Published
- 2021
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21. Heterovalent BiIII/PbII ionic substitution in one-dimensional trimethylsulfoxonium halide pseudo-perovskites (X = I, Br)
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Maurizio Casarin, Silvia Carlotto, Norberto Masciocchi, Francesco Giannici, Antonino Martorana, Antonietta Guagliardi, Gonzalo García-Espejo, Candida Pipitone, Pipitone C., Giannici F., Martorana A., Garcia-Espejo G., Carlotto S., Casarin M., Guagliardi A., and Masciocchi N.
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Electronic structure ,Materials science ,Band gap ,Halide ,Ionic bonding ,chemistry.chemical_element ,Positive ion ,Perovskite ,Ion ,Bismuth ,Physical and Theoretical Chemistry ,Perovskite (structure) ,Design for testability ,X ray powder diffraction ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,Energy gap ,Crystallography ,General Energy ,chemistry ,Density functional theory ,organic-inorganic material ,Defect - 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 Pnma space 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)PbI3 and (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
22. X-ray Spectroscopy of (Ba,Sr,La)(Fe,Zn,Y)O3-δIdentifies Structural and Electronic Features Favoring Proton Uptake
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Maximilian F. Hoedl, Alessandro Longo, Antonino Martorana, Francesco Giannici, Giulia Raimondi, Joachim Maier, Alessandro Chiara, Rotraut Merkle, Raimondi G., Giannici F., Longo A., Merkle R., Chiara A., Hoedl M.F., Martorana A., and Maier J.
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X-ray spectroscopy ,Materials science ,Proton ,General Chemical Engineering ,chemistry.chemical_element ,02 engineering and technology ,General Chemistry ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,Oxygen ,0104 chemical sciences ,Extended X ray absorption fine structure spectroscopy, Functional materials, Iron, OxygenPerovskite, Protonic ceramic fuel cells (PCFC), X ray absorption ,Crystallography ,chemistry ,visual_art ,Materials Chemistry ,visual_art.visual_art_medium ,Fuel cells ,Ceramic ,Absorption (chemistry) ,0210 nano-technology - Abstract
Mixed protonic–electronic conducting oxides are key functional materials for protonic ceramic fuel cells. Here, (Ba,Sr,La)(Fe,Zn,Y)O3−δ perovskites are comprehensively investigated by X-ray spectroscopy (in oxidized and reduced states). Extended X-ray absorption fine structure shows that Zn,Y doping strongly increases the tendency for Fe–O–Fe buckling. X-ray absorption near-edge spectroscopy at the Fe K-edge and X-ray Raman scattering at the O K edge demonstrate that both iron and oxygen states are involved when the samples are oxidized, and for the Zn,Y doped materials, the hole transfer from iron to oxygen is less pronounced. This can be correlated with the observation that these materials show the highest proton uptake.
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- 2020
23. Supramolecular Eutecto Gels: Fully Natural Soft Materials
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Alessandro Meli, Francesca D'Anna, Salvatore Marullo, Francesco Giannici, Marullo, S, Meli, A, Giannici, F, and D'Anna, F
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Deep eutectic solvent ,Materials science ,General Chemical Engineering ,Kinetics ,Supramolecular chemistry ,010402 general chemistry ,01 natural sciences ,chemistry.chemical_compound ,Colloid ,Rheology ,Environmental Chemistry ,Chemical Engineering (all) ,Eutectic system ,010405 organic chemistry ,Renewable Energy, Sustainability and the Environment ,Chemistry (all) ,Settore CHIM/06 - Chimica Organica ,General Chemistry ,Environmentally friendly ,Soft materials ,Amino acid ,0104 chemical sciences ,Chemical engineering ,chemistry ,Supramolecular gel ,Choline chloride - Abstract
The obtainment of materials featured by high environmental compatibility is one of the main goals of modern research. On this subject, we herein report the first example of supramolecular gel in deep eutectic solvents. In particular, we prepared gels of the L-amino acids isoleucine and tryptophan in choline chloride/phenylacetic acid 1:2. All gel components are readily available and nontoxic. Gels have been fully characterized by standard gelation tests, rheology, X-ray diffraction, morphology and gelation kinetics. Data collected show that gels properties depend on the gelator nature. In particular, gel phases exhibit strong colloidal forces and, this high mechanical resistance, together with their environmental friendly nature, make them promising candidates for applications in all those fields requiring good performance and low environmental impact.
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- 2018
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24. Heterovalent doping of a 1D hybrid pseudo-perovskite: B-site vacancy and short-range order
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Candida Pipitone, Francesco Giannici, Antonino Martorana, Antonietta Guagliardi, Gonzalo García-Espejo, and Norberto Masciocchi
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Inorganic Chemistry ,Structural Biology ,General Materials Science ,Physical and Theoretical Chemistry ,Condensed Matter Physics ,Biochemistry - Published
- 2021
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25. Formation and growth of palladium nanoparticles inside porous poly(4-vinyl-pyridine) monitored by operando techniques: The role of different reducing agents
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Giuseppe Portale, Alessandro Longo, Riccardo Pellegrini, Giovanni Agostini, Elisa Borfecchia, Francesco Giannici, Andrea Lazzarini, Elena Groppo, Carlo Lamberti, Macromolecular Chemistry & New Polymeric Materials, Lazzarini, A., Groppo, E., Agostini, G., Borfecchia, E., Giannici, F., Portale, G., Longo, A., Pellegrini, R., and Lamberti, C.
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inorganic chemicals ,Reducing agent ,Infrared spectroscopy ,chemistry.chemical_element ,02 engineering and technology ,Thermal treatment ,010402 general chemistry ,Photochemistry ,01 natural sciences ,AEROBIC ALCOHOL OXIDATION ,Catalysis ,Catalysi ,P4VP ,RUTHENIUM NANOPARTICLES ,Molecule ,Organic chemistry ,Operando ,CATALYTIC-ACTIVITY ,chemistry.chemical_classification ,PD NANOPARTICLES ,DRIFT ,Palladium nanoparticles ,SAXS ,XANES ,Chemistry ,IN-SITU ,Chemistry (all) ,General Chemistry ,Polymer ,Palladium nanoparticle ,SELECTIVE OXIDATION ,021001 nanoscience & nanotechnology ,X-RAY-SCATTERING ,PARTICLE-SIZE ,0104 chemical sciences ,Colloidal gold ,GOLD NANOPARTICLES ,VIBRATIONAL PROPERTIES ,0210 nano-technology ,Palladium - Abstract
In this work we followed the formation of palladium nanoparticles, starting from palladium (II) acetate precursor, inside a poly(4-vinylpyridine-co-divinylbenzene) polymer in presence of different reducing agents. The formation and growth of palladium nanoparticles in presence of H-2 was followed as a function of temperature by simultaneous XANES-SAXS techniques, coupled with DRIFT spectroscopy in operando conditions. It was found that the pyridyl functional groups in the polymer plays a fundamental role in the stabilization of the palladium (II) acetate precursor, as well as in the stabilization of the palladium nanoparticles. The effect of a thermal treatment in alcohol (ethanol and 2-propanol) was preliminarily investigated by means of DRIFT spectroscopy in operando conditions. We found that alcohols act as reducing agents for Pd(OAc)(2). The obtained palladium nanoparticles were preliminarily characterized by means of IR spectroscopy using CO as probe molecule. (C) 2016 Elsevier B.V. All rights reserved.
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- 2017
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26. Theoretical insights into inorganic-organic intercalation products of the layered perovskite HLaNb2O7: perspectives for hybrid proton conductors
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Frédéric Labat, Cristina Tealdi, Adriana Mossuto Marculescu, Stefania Di Tommaso, Francesco Giannici, Carlo Adamo, Antonino Martorana, Alessandro Chiara, Di Tommaso S., Giannici F., Mossuto Marculescu A., Chiara A., Tealdi C., Martorana A., Labat F., and Adamo C.
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Materials science ,Proton ,Intercalation (chemistry) ,Oxide ,General Physics and Astronomy ,Protonation ,02 engineering and technology ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,0104 chemical sciences ,chemistry.chemical_compound ,chemistry ,Chemical engineering ,Molecule ,Imidazole ,Physical and Theoretical Chemistry ,proton conductors ,0210 nano-technology ,Hybrid material ,Perovskite (structure) - 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 C-13-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
27. Interface Solid-State Reactions in La0.8Sr0.2MnO3/Ce0.8Sm0.2O2 and La0.8Sr0.2MnO3/BaCe0.9Y0.1O3 Disclosed by X-ray Microspectroscopy
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Alessandro Chiara, Giovanna Canu, Alessandro Longo, Antonino Martorana, Francesco Giannici, Giannici, F, Chiara, A, Canu, G, Longo, A, and Martorana, A
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Materials science ,Absorption spectroscopy ,XAS ,XRF ,Analytical chemistry ,Energy Engineering and Power Technology ,chemistry.chemical_element ,Manganese ,Electrolyte ,fuel cells ,electrolyte ,compatibility ,SDC ,fuel cell ,chemistry.chemical_compound ,Thermal ,Materials Chemistry ,Electrochemistry ,ID21 ,Chemical Engineering (miscellaneous) ,materials compatibility ,ESRF ,x-ray microspectroscopy ,SOFC ,Electrical and Electronic Engineering ,x-ray fluorescence ,Lanthanum strontium manganite ,X-ray ,BCY ,electrode ,XANES ,ceria ,Chemical state ,lanthanum strontium manganite ,chemistry ,Electrode ,interdiffusion ,barium cerate - Abstract
The stability of the electrode/electrolyte interface is a critical issue in solid-oxide cells working at high temperatures, affecting their durability. In this paper, we investigate the solid-state chemical mechanisms that occur at the interface between two electrolytes (Ce0.8Sm0.2O2, SDC, and BaCe0.9Y0.1O3, BCY) and a cathode material (La0.8Sr0.2MnO3, LSM) after prolonged thermal treatments. Following our previous work on the subject, we used X-ray microspectroscopy, a technique that probes the interface with submicrometric resolution combining microanalytical information with the chemical and structural information coming from space-resolved X-ray absorption spectroscopy. In LSM/BCY, the concentration profiles show striking reactive phenomena at the interface with a variety of micrometer-sized secondary phases: In particular, X-ray absorption spectra reveal at least three different chemical states for manganese (from +3 to +6). Also in LSM/SDC, a couple previously reported as chemically stable, we found the formation of small islets of SmMnO3 after the migration of manganese to the SDC side; these may constitute the nuclei for the subsequent formation of an interfacial resistive layer after more prolonged operation. The ability of manganese to adopt several oxidation states and crystal chemical environments is indicated as a possible cause for these behaviors.
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- 2019
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28. X-ray Absorption under Operating Conditions for Solid-Oxide Fuel Cells Electrocatalysts: The Case of LSCF/YSZ
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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
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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 °, 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.
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- 2019
29. Characterisation of scheelite LaW0.16Nb0.84O4.08 ion conductor by combined synchrotron techniques: Structure, W oxidation state and interdiffusion
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Francesco Giannici, Antonino Martorana, Giovanna Canu, Giorgia Confalonieri, Alessandro Longo, Alessandro Chiara, Maria Teresa Buscaglia, Monica Dapiaggi, Vincenzo Buscaglia, Canu G., Giannici F., Chiara A., Confalonieri G., Longo A., Buscaglia M.T., Dapiaggi M., Buscaglia V., and Martorana A.
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Materials science ,Scheelite ,Analytical chemistry ,chemistry.chemical_element ,Chemical compatibility ,02 engineering and technology ,Tungsten ,010402 general chemistry ,01 natural sciences ,Ion ,chemistry.chemical_compound ,Tetragonal crystal system ,Electrolyte ,Materials Chemistry ,LSM ,lectrolyte ,Valence (chemistry) ,Extended X-ray absorption fine structure ,Mechanical Engineering ,Metals and Alloys ,021001 nanoscience & nanotechnology ,XANES ,0104 chemical sciences ,chemistry ,Mechanics of Materials ,0210 nano-technology ,Solid-oxide fuel cells ,Monoclinic crystal system - Abstract
Scheelite-type materials such as LaNbO4 are increasingly attracting attention as a possible alternative to the most common fluorite and perovskite structure as ion conductors. However, they are much less used and investigated. The introduction of tungsten in lanthanum orthoniobate leads to conduction properties that are compatible with oxygen ion conductivity. In this paper, we studied the effect of the introduction of tungsten in the LaNbO4 structure. High resolution X-ray diffraction showed that in LaNb1-xWxO4+x/2 with x = 0.16 the monoclinic distortion is largely suppressed and the tetragonal phase is predominant at room temperature. By XANES/EXAFS we proved that tungsten is in its 6+ valence state and no W5+ was detected. With X-ray microspectroscopy, we studied in detail with a submicrometre-probe the interdiffusion and degradation processes taking place between the material and LSM, a common electrode material, during their long-term contact at high temperatures.
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- 2021
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30. Electrode–Electrolyte Compatibility in Solid-Oxide Fuel Cells: Investigation of the LSM–LNC Interface with X-ray Microspectroscopy
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Alessandro Longo, Marianna Gambino, Giovanna Canu, Massimo Viviani, Francesco Giannici, Murielle Salomé, Antonino Martorana, Giannici, F., Canu, G., Gambino, M., Longo, A., Salomé, M., Viviani, M., and Martorana, A.
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PROTON CONDUCTORS ,cathode ,Materials science ,General Chemical Engineering ,X-ray microspectroscopy ,XRF ,Oxide ,electrolyte ,Electrolyte ,fuel cell ,chemistry.chemical_compound ,Materials Chemistry ,SOFC ,X-ray ,Compatibility (geochemistry) ,General Chemistry ,electrode ,lanthanum manganite ,lanthanum strontium manganite ,EXAFS ,CHEMICAL COMPATIBILITY ,chemistry ,Chemical engineering ,Electrode ,microXRF ,Fuel cells ,LNC ,lanthanum niobate - Abstract
Ca:LaNbO4 (LNC) constitutes the last real breakthrough in high-temperature proton conductors, with better chemical and mechanical stability with respect to cerate and zirconate perovskites. However, the low amount of bivalent dopant that can be hosted in the LaNbO4 matrix poses a limit to the proton concentration in the electrolyte. Using synchrotron X-ray microspectroscopy, we investigated the compatibility of annealed LNC/LSM electrolyte/cathode bilayers for proton-conducting SOFCs. The element maps are complemented by microEXAFS and microXANES, giving information on the fate of different cations after diffusion. The X-ray microspectroscopy approach described here is applied for the first time to the study of materials for energy, and it is proposed as a useful structural tool, complementary to electrochemical characterization, for the investigation of the compatibility between materials for SOFCs. We demonstrate that an impressive calcium drift towards the LSM cathode takes place: the dopant is depleted throughout a region of LNC several micrometers wide, causing a decrease of charge carriers in the electrolyte and eventually impairing its conductivity. This poses a significant challenge for evaluating electrolyte/electrode couples in proton-conducting SOFCs based on LNC.
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- 2015
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31. Defect interaction and local structural distortions in Mg-doped LaGaO
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Marianna, Gambino, Stefania, Di Tommaso, Francesco, Giannici, Alessandro, Longo, Carlo, Adamo, Frédéric, Labat, and Antonino, Martorana
- Abstract
A combined experimental and theoretical study of Mg-doped LaGaO
- Published
- 2017
32. Supramolecular Hydro- and Ionogels: A Study of Their Properties and Antibacterial Activity
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Rossella Arrigo, Francesco Giannici, Francesca D'Anna, Carla Rizzo, Nadka Tz. Dintcheva, Renato Noto, Alberto Sutera, Giuseppe Gallo, Paola Vitale, Rizzo, C., Arrigo, R., Dintcheva, N., Gallo, G., Giannici, F., Noto, R., Sutera, A., Vitale, P., and D'Anna, F.
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gel ,antibacterial activity ,gels ,hydrogels ,ionic liquids ,ionogels ,Chemistry (all) ,Scanning electron microscope ,Supramolecular chemistry ,Ionic Liquids ,02 engineering and technology ,Microbial Sensitivity Tests ,010402 general chemistry ,Gram-Positive Bacteria ,01 natural sciences ,Catalysis ,chemistry.chemical_compound ,Rheology ,X-Ray Diffraction ,Phase (matter) ,Gram-Negative Bacteria ,Organic chemistry ,Thermal stability ,ionic liquid ,Organic Chemistry ,Imidazoles ,General Chemistry ,021001 nanoscience & nanotechnology ,0104 chemical sciences ,Anti-Bacterial Agents ,ionogel ,chemistry ,Chemical engineering ,Self-healing hydrogels ,Ionic liquid ,Microscopy, Electron, Scanning ,Solvents ,hydrogel ,0210 nano-technology ,Antibacterial activity ,Gels - 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.
- Published
- 2017
33. Cation Diffusion and Segregation at the Interface between Samarium-Doped Ceria and LSCF or LSFCu Cathodes Investigated with X-ray Microspectroscopy
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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
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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
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34. Covalent and Ionic Functionalization of HLN Layered Perovskite by Sonochemical Methods
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Cristina Tealdi, Piercarlo Mustarelli, Francesco Giannici, Adriana Mossuto Marculescu, Antonino Martorana, Alessandro Longo, Alice S. Cattaneo, Giannici, F., Mossuto Marculescu, A., Cattaneo, A., Tealdi, C., Mustarelli, P., Longo, A., Martorana, A., Giannici, F, Mossuto Marculescu, A, Cattaneo, A, Tealdi, C, Mustarelli, P, Longo, A, and Martorana, A
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Thermogravimetric analysis ,Chemistry ,Infrared spectroscopy ,Ionic bonding ,02 engineering and technology ,Thermal treatment ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,0104 chemical sciences ,Inorganic Chemistry ,Chemical bond ,Chemical engineering ,Covalent bond ,Organic chemistry ,Surface modification ,Physical and Theoretical Chemistry ,0210 nano-technology ,Perovskite (structure) - Abstract
We describe the functionalization of the layered perovskite HLaNb2O7 with n-propanol, n-decanol, 3-mercaptopropyl-trimethoxysilane, imidazole, n-decylamine, and histamine. The use of sonication is found to significantly improve the reaction yield and to reduce the reaction time, compared to conventional thermal treatment under reflux. The obtained intercalates are thoroughly characterized through the use of several complementary experimental techniques (scanning electron microscopy, IR spectroscopy, X-ray diffraction, thermogravimetric analysis, magic-angle spinning NMR), clarifying their structure and chemical bonding. The implications for the design of inorganic–organic composite materials are discussed.
- Published
- 2017
35. Crossing the boundary between face-centred cubic and hexagonal close packed: the structure of nanosized cobalt is unraveled by a model accounting for shape, size distribution and stacking faults, allowing simulation of XRD, XANES and EXAFS
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Alessandro Longo, Francesco Giannici, Luisa Sciortino, and Antonino Martorana
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Diffraction ,Materials science ,Extended X-ray absorption fine structure ,Close-packing of equal spheres ,Stacking ,Ab initio ,chemistry.chemical_element ,Molecular physics ,General Biochemistry, Genetics and Molecular Biology ,XANES ,Condensed Matter::Materials Science ,Crystallography ,symbols.namesake ,chemistry ,Debye–Hückel equation ,symbols ,Cobalt - Abstract
The properties of nanostructured cobalt in the fields of magnetic, catalytic and biomaterials depend critically on Co close packing. This paper reports a structural analysis of nanosized cobalt based on the whole X-ray diffraction (XRD) pattern simulation allowed by the Debye equation. The underlying structural model involves statistical sequences of cobalt layers and produces simulated XRD powder patterns bearing the concurrent signatures of hexagonal and cubic close packing (h.c.p. and f.c.c.). Shape, size distribution and distance distribution between pairs of atoms are also modelled. The simulation algorithm allows straightforward fitting to experimental data and hence the quantitative assessment of the model parameters. Analysis of two samples having, respectively, h.c.p. and f.c.c. appearance is reported. Extended X-ray absorption fine-structure (EXAFS) and X-ray absorption near-edge structure (XANES) spectra are simulated on the basis of the model, giving a tool for the interpretation of structural data complementary to XRD. The outlined structural analysis provides a rigorous structural basis for correlations with magnetic and catalytic properties and an experimental reference forab initiomodelling of these properties.
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- 2014
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36. Solid-state NMR characterization of the structure and thermal stability of hybrid organic-inorganic compounds based on a HLaNb2O7 Dion-Jacobson layered perovskite
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Cristina Tealdi, Adriana Mossuto Marculescu, Chiara Ferrara, Piercarlo Mustarelli, Alice S. Cattaneo, Antonino Martorana, Francesco Giannici, Cattaneo, A, Ferrara, C, Marculescu, A, Giannici, F, Martorana, A, Mustarelli, P, Tealdi, C, Cattaneo, A., Ferrara, C., Marculescu, A., Giannici, F., Martorana, A., Mustarelli, P., and Tealdi, C.
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chemistry.chemical_classification ,Chemistry ,Intercalation (chemistry) ,General Physics and Astronomy ,02 engineering and technology ,Thermal treatment ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,0104 chemical sciences ,Crystallography ,Physics and Astronomy (all) ,Solid-state nuclear magnetic resonance ,Heteronuclear molecule ,Organic chemistry ,Thermal stability ,Physical and Theoretical Chemistry ,0210 nano-technology ,Hybrid material ,organic-inorganic compounds, NMR ,Alkyl ,Perovskite (structure) - Abstract
Dion-Jacobson phases, like MLaNb2O7, are an interesting class of ion-exchangeable layered perovskites possessing electronic and photocatalytic properties. Their protonated and organo-modified homologues, in particular, have already been indicated as promising catalysts. However, the structural analysis of these highly tailorable materials is still incomplete, and both the intercalation process and thermal stability of the included organic moieties are far from being completely understood. In this study, we present a thorough solid-state NMR characterization of HLaNb2O7·xH2O intercalated with different amounts of octylamine, or with decylamine. Samples were analyzed as prepared, and after thermal treatment at different temperatures up to 220 °C. The substitution of pristine proton ions was followed via(1)H MAS NMR spectroscopy, whereas the alkyl chains were monitored through (13)C((1)H) CP MAS experiments. The interactions in the interlayer space were explored using (13)C((1)H) 2D heteronuclear correlation experiments. We demonstrate that some of the protons are involved in the functionalization reaction, and some of them are in close proximity to the alkyl ammonium chains. Heating of the hybrid materials leads first to a rearrangement of the alkyl chains and then to their degradation. The spatial arrangement of the chains, their interactions and the thermal behavior of the materials depend on the extent of the functionalization, and on the nature of the intercalated alkyl ammonium ions.
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- 2016
37. Structure of the Metal–Support Interface and Oxidation State of Gold Nanoparticles Supported on Ceria
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Antonino Martorana, Francesco Giannici, Anna Maria Venezia, Alessandro Longo, Leonarda F. Liotta, Giuseppe Pantaleo, Longo, A, Liotta, LF, Pantaleo, G, Giannici, F, Venezia, AM, and Martorana, A
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Materials science ,Extended X-ray absorption fine structure ,Oxide ,XANES ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,Catalysis ,X-ray absorption fine structure ,Metal ,Crystallography ,chemistry.chemical_compound ,General Energy ,chemistry ,Chemical engineering ,Colloidal gold ,Oxidation state ,visual_art ,EXAFS, ceria, catalysis, gold ,visual_art.visual_art_medium ,Physical and Theoretical Chemistry - Abstract
An Au/CeO2 model catalyst was prepared by deposition–precipitation, with the aim of obtaining a sample suitable for a detailed X-ray absorption fine structure (XAFS) analysis of the gold–ceria interface structure. The results demonstrate the existence of a large interface between the gold particle and the support oxide, characterized by well-defined Au–O and Au–Ce interactions extending up to ∼6.4 A. The complex interface structure is retained after CO treatment up to 250 °C and subsequent reoxidation at 400 °C. The analysis of the XANES spectra, and the Au–O distance of 2.21 A, longer than Au–O bond lengths previously reported for Au/ceria catalysts, suggest a low oxidation state for the gold atoms placed at the interface between Au and ceria.
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- 2012
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38. Effects of Grain Boundary Decoration on the Electrical Conduction of Nanocrystalline CeO2
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Piero Lupetin, Francesco Giannici, Joachim Maier, Giuliano Gregori, Antonino Martorana, Lupetin, P, Giannici, F, Gregori, G, Martorana, A, and Maier, J
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Materials science ,EXAFS, ceria, oxide ion conductor ,Condensed matter physics ,Renewable Energy, Sustainability and the Environment ,Electrical conduction ,Materials Chemistry ,Electrochemistry ,Grain boundary ,Condensed Matter Physics ,Nanocrystalline material ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials - 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.
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- 2012
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39. Long-Range and Short-Range Structure of Proton-Conducting Y:BaZrO3
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Antonino Martorana, Alessandro Longo, Rotraut Merkle, Joachim Maier, Francesco Giannici, Mona Shirpour, Giannici, F, Shirpour, M, Longo, A, Merkle, R, Martorana, A, and Maier, J
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DYNAMICS ,RAMAN-SCATTERING ,Materials science ,Crystal chemistry ,General Chemical Engineering ,YTTRIUM ,LOCAL ENVIRONMENT ,BARIUM CERATE ,SPECTROSCOPY ,BAZR0.9Y0.1O2.95 ,STRONTIUM ,DEFECTS ,OXIDES ,Crystal structure ,symbols.namesake ,Materials Chemistry ,Spectroscopy ,Proton conductor ,Extended X-ray absorption fine structure ,Doping ,General Chemistry ,Crystallography ,symbols ,Raman spectroscopy ,Raman scattering - Abstract
Yttrium-doped barium zirconate (BZY) is the most promising candidate for proton-conducting ceramics and has been extensively studied in recent years. The detailed features of the crystal structure, both short-range and long-range, as well as the crystal chemistry driving the doping process, are largely unknown. We use very high resolution X-ray diffraction (HR-XRD) to resolve the crystal structure, which is very slightly tetragonally distorted in BZY, while the local environment around Zr4+ and Y3+ is probed with extended X-ray absorption fine structure (EXAFS), and the symmetry and vibrations are investigated by using Raman spectroscopy. It is found that barium zirconate shows some degree of local deviation from the cubic arystotype even if undoped, which upon substitution by the perceptibly larger Y3+, playing the role of a rigid inclusion, is further increased. This distortion is one limiting factor concerning the Y3+ solubility. The effects are correlated to the proton conduction properties of BZY.
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- 2011
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40. Crystal Structure and Local Dynamics in Tetrahedral Proton-Conducting La1-xBa1+xGaO4
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Alessandro Longo, Francesco Giannici, Diego Messana, Antonino Martorana, Giannici, F, Messana, D, Longo, A, and Martorana, A
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ENVIRONMENT ,Thermogravimetric analysis ,Proton ,Extended X-ray absorption fine structure ,Chemistry ,Hydrogen bond ,YTTRIUM ,Oxide ,Infrared spectroscopy ,DEFECTS ,Crystal structure ,FUEL-CELLS ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,Ion ,chemistry.chemical_compound ,Crystallography ,BARIUM CERATE ,OXIDES ,MOBILITY ,General Energy ,Physical and Theoretical Chemistry - Abstract
La1-xBa1+xGaO4-0 (LBG) compounds, based on unconnected GaO4 moieties, 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 GaO4 groups is independent of the oxide composition. On hydration, an array of short intertetrahedral hydrogen bonds is formed, producing a contraction of the a axis. On the basis of thermogravimetric analysis, EXAFS, XRD and infrared spectroscopy (IR) results, we propose that the stiffness of the GaO4 tetrahedra hinders the intratetrahedral proton transfer, while the noticeable fraction of protons involved in strong hydrogen bonds limit the proton reorientational freedom.
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- 2010
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41. Local environment of Barium, Cerium and Yttrium in BaCe1−xYxO3−δ ceramic protonic conductors
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A.S. Arico, Francesca Deganello, Antonella Balerna, Antonino Martorana, Francesco Giannici, Alessandro Longo, F GIANNICI, A LONGO, F DEGANELLO, A BALERNA, A ARICO', and MARTORANA A
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Materials science ,Extended X-ray absorption fine structure ,Dopant ,Absorption spectroscopy ,Barium cerate ,Inorganic chemistry ,EXAFS, XRD, proton conductor, perovskite, barium cerate ,Oxide ,chemistry.chemical_element ,Barium ,General Chemistry ,Yttrium ,Perovskite ,Condensed Matter Physics ,Protonic conductor ,EXAFS ,chemistry.chemical_compound ,Cerium ,chemistry ,Physical chemistry ,General Materials Science ,Y-doping ,Perovskite (structure) - Abstract
Y-doped barium cerate protonic conductors with composition BaCe 1 − x Y x O 3 − δ ( x = 0.02, 0.1, 0.2, 0.3) have been synthesized by sol–gel route, giving by X-ray diffraction tests a homogeneous crystalline phase. A commercial sample BaCe 0.8 Y 0.2 O 3 − δ produced by combustion spray pyrolysis was also provided for comparison aim. The local structure around the cations was studied by X-ray absorption spectroscopy at the K-edges of Ba, Ce and Y. It is demonstrated that the insertion of yttrium in the site of cerium produces a remarkable local distortion of the dopant first-shell octahedral environment that affects also the next coordination shells by a static disorder increasing with dopant amount. For a dopant concentration estimated as x > 0.17, a poorly crystallized yttrium oxide phase that cannot be detected by X-ray diffraction is segregated. The static disorder around Y noticeably increases in the protonated samples and can be related to a preferential location of protons near the dopant.
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- 2007
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42. Pd nanoparticles formation inside porous polymeric scaffolds followed by in situ XANES/SAXS
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Francesco Giannici, Alessandro Longo, Wei Liu, Andrea Lazzarini, Carlo Lamberti, Elisa Borfecchia, Giovanni Agostini, Elena Groppo, Giuseppe Portale, CNR, Ist Studio Mat Nanostrutturati, Palermo, Italy, Southern Fed Univ, Rostov Na Donu, Russia, Univ Turin, Dept Chem, CrisDi Ctr Crystallog, Turin, Italy, Univ Turin, INSTM Reference Ctr, Dept Chem, Turin, Italy, Univ Turin, NIS Reference Ctr, Dept Chem, Turin, Italy, European Synchrotron Radiation Facility (ESRF), Tianjin Polytech Univ, Sch Environm & Chem Engn, Tianjin, Peoples R China, Univ Palermo, Dipartimento Fis & Chim, I-90133 Palermo, Italy, Longo A., Lamberti C., Agostini G., Borfecchia E., Lazzarini A., Liu W., Giannici F., Portale G., and Groppo E.
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History ,Materials science ,Absorption spectroscopy ,Nanoparticle ,chemistry.chemical_element ,reduction ,02 engineering and technology ,polystyrene ,010402 general chemistry ,01 natural sciences ,Education ,P4VP ,chemistry.chemical_compound ,Pd ,Pd nanoparticles formation inside porous polymeric scaffolds ,paladum ,chemistry.chemical_classification ,[PHYS]Physics [physics] ,Small-angle X-ray scattering ,nanoparticle ,in situ ,SAXS, XANES, Pd, paladum, nanoparticle, polystyrene, P4VP, DRIFT, TEM, reduction, in situ ,SAXS ,Polymer ,021001 nanoscience & nanotechnology ,XANES ,0104 chemical sciences ,Computer Science Applications ,Crystallography ,DRIFT ,chemistry ,Chemical engineering ,TEM ,Polystyrene ,Diffuse reflection ,0210 nano-technology ,Palladium - Abstract
International audience; Simultaneous time-resolved SAXS and XANES techniques were employed to follow in situ the formation of Pd nanoparticles from palladium acetate precursor in two porous polymeric supports: polystyrene (PS) and poly(4-vinyl-pyridine) (P4VP). In this study we have investigated the effect of the use of different reducing agents (H-2 and CO) from the gas phase. These results, in conjunction with data obtained by diffuse reflectance IR (DRIFT) spectroscopy and TEM measurements, allowed us to unravel the different roles played by gaseous H-2 and CO in the formation of the Pd nanoparticles for both PS and P4VP hosting scaffolds
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- 2015
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43. Synchrotron Radiation and Chemistry: Studies of Materials for Renewable Energy Sources
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Francesco Giannici, Alessandro Longo, Antonino Martorana, Mobilio, Settimio, Boscherini, Federico, Meneghini, Carlo (Eds.), Martorana, A, Giannici, F, and Longo, A
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Materials science ,Hydrogen ,business.industry ,synchrotron radiation ,XRD ,Synchrotron radiation ,chemistry.chemical_element ,SAXS ,Electrochemistry ,XRPD ,Engineering physics ,XANES ,Renewable energy ,Catalysis ,hydrogen storage ,fuel cell ,Hydrogen storage ,EXAFS ,chemistry ,dye-sensitized solar cell ,SR-XRD ,Reactivity (chemistry) ,business ,Nuclear chemistry ,Hydrogen production - Abstract
We present an overview of selected applications of synchrotron radiation methods to topical chemical research. The analysis is limited to the studies on materials for renewable energy sources, focussing on topics peculiar to chemical research, such as reactivity and synthesis routes; in particular, the paper takes into account subjects having some relevance for the production and storage of energy based on hydrogen. Hydrogen production and storage are taken into account in the sections concerning: (i) Dye-sensitized solar cells, (ii) Metal-organic frameworks and (iii) Hydrides for hydrogen storage; production of energy by fuel cell devices is treated in (iv) Oxide ion and proton conductors and in (v) Electrodes for fuel cells. These arguments allowed to give a coherent outline of the involvement of synchrotron radiation techniques in traditional branches of chemistry such as inorganic and organic chemistry, catalysis and electrochemistry.
- Published
- 2015
44. The Pyridyl Functional Groups Guide the Formation of Pd Nanoparticles Inside A Porous Poly(4-Vinyl-Pyridine)
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Wei Liu, Giovanni Agostini, Alessandro Longo, Andrea Lazzarini, Elena Groppo, Elisa Borfecchia, Francesco Giannici, Carlo Lamberti, Giuseppe Portale, Macromolecular Chemistry & New Polymeric Materials, Groppo, E., Agostini, G., Borfecchia, E., Lazzarini, A., Liu, W., Lamberti, C., Giannici, F., Portale, G., and Longo, A.
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INFRARED-SPECTRA ,Diffuse reflectance infrared fourier transform ,polymer ,small angle X-ray scattering ,Infrared spectroscopy ,chemistry.chemical_element ,PALLADIUM(II) ACETATE ,IR spectroscopy ,nanoparticles ,palladium ,polymers ,X-ray absorption spectroscopy ,Photochemistry ,Catalysis ,Inorganic Chemistry ,Acetic acid ,chemistry.chemical_compound ,RUTHENIUM NANOPARTICLES ,PARTICLE FORMATION ,ENVIRONMENTALLY BENIGN ,Reactivity (chemistry) ,Physical and Theoretical Chemistry ,CARBON-MONOXIDE ,chemistry.chemical_classification ,POLYMERIC SUPPORTS ,nanoparticle ,IN-SITU ,Organic Chemistry ,Polymer ,chemistry ,Palladium(II) acetate ,TRANSITION-METAL COORDINATION ,RESOLVED SAXS ANALYSIS ,Palladium - Abstract
The reactivity of palladium acetate inside a poly(4-vinylpyridine-co-divinylbenzene) polymer is strongly influenced by the establishment of interaction between the Pd precursor and the pyridyl functional group in the polymer. Diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS) and simultaneous X-ray absorption near edge structure (XANES) and small angle X-ray scattering (SAXS) techniques have been applied to monitor the reactivity of palladium acetate in the presence of H-2 and CO as a function of temperature. H-2 reduces palladium acetate to Pd nanoparticles and acetic acid. The pyridyl groups in the polymer play a vital role both in stabilizing the formed acetic acid, thus allowing its detection by means of DRIFTS, and the final Pd nanoparticles, which are extremely small and mono-dispersed. On the contrary, CO does not reduce palladium acetate. Rather, it forms Pd2+ carbonyl adducts, which favor the detachment of the acetate ligands and their thermal degradation. These adducts are well observable by means of SAXS because they cause an important local change of the electronic density.
- Published
- 2015
45. Dopant Clusterization and Oxygen Coordination in Ta-Doped Bismuth Oxide: A Structural and Computational Insight into the Mechanism of Anion Conduction
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Alessandro Longo, Marianna Gambino, Francesco Giannici, Frédéric Labat, Antonino Martorana, Stefania Di Tommaso, Gambino, M., Giannici, F., Longo, A., Di Tommaso, S., Labat, F., and Martorana, A.
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Dopant ,Absorption spectroscopy ,Electronic, Optical and Magnetic Material ,Doping ,Oxide ,chemistry.chemical_element ,Surfaces, Coatings and Film ,Electronic structure ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,Bismuth ,chemistry.chemical_compound ,General Energy ,Energy (all) ,chemistry ,Computational chemistry ,Chemical physics ,Density of states ,Physical and Theoretical Chemistry ,Lone pair - Abstract
Bi2O3 in its fluorite-like form can be obtained either at 730-824 °C, showing the highest oxide-ion conduction known so far, or by doping. We present a comprehensive appraisal of the local atomic structure of Ta-doped Bi2O3 investigating by X-ray absorption spectroscopy the aggregation motifs of Ta5+ and the interaction between dopants and oxygen vacancies. Using periodic density functional theory simulations, we show that the connection of Ta4O18 aggregates is energetically favorable. We find that the local coordination of Bi3+ and its electronic structure, as seen from the calculated density of states (DOS), are invariably determined by the Bi 6s2 lone pair in both doped and undoped Bi2O3. This does not depend on the long-range symmetry that is revealed by X-ray diffraction studies. From the similarity of the DOS of α-Bi2O3 and Ta-doped bismuth oxide, it is inferred that the force governing the local coordination of Bi is essentially the same in all forms of Bi2O3. As the local Bi environment, determined by X-ray absorption spectroscopy, is also found to be very similar in all investigated samples, regardless of the dopant concentration, the local mechanism of oxide ion diffusion is arguably similar in doped and undoped bismuth oxide.
- Published
- 2015
46. Local Environment of Yttrium in Y-Doped Barium Cerate Compounds
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Francesco Giannici, Alessandro Longo, Francesca Deganello, Antonino Martorana, Antonella Balerna, Carmela Ingrao, LONGO, A, GIANNICI, F, BALERNA, A, INGRAO, C, DEGANELLO, F, and MARTORANA, A
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X-ray absorption spectroscopy ,Materials science ,Absorption spectroscopy ,Dopant ,General Chemical Engineering ,Barium cerate compound ,Inorganic chemistry ,Doping ,Analytical chemistry ,chemistry.chemical_element ,Barium ,General Medicine ,General Chemistry ,Yttrium ,Distorted octahedron ,chemistry ,Octahedron ,Structural distortion ,Distortion ,Materials Chemistry - Abstract
The local structure of yttrium in Y-doped BaCeO3 compounds was studied using X-ray absorption spectroscopy (XAS) at the Y K-edge. Data analysis shows that the local environment of Y3+ changes, resulting in a distorted octahedron. The structural distortion found does not depend on the dopant amount at the investigated compositions, but on the level of hydration, as clearly demonstrated by the distortion increase in the BaCe0.9Y0.1O3-ä sample after the treatment in O2/H2O. In situ measurements performed in O2/H2O flux, which show that the distortion is retained at 753 K, are also reported. The observed significative structural changes seem to point out a preferential insertion of the hydroxyls around the dopant in the Y-doped BaCeO3 compounds.
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- 2006
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47. Defect interaction and local structural distortions in Mg-doped LaGaO3: A combined experimental and theoretical study
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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
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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
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48. Toward tailorable surfaces: a combined theoretical and experimental study of lanthanum niobate layered perovskites
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Francesco Giannici, Frédéric Labat, Stefania Di Tommaso, Carlo Adamo, Antonino Martorana, Adriana Mossuto Marculescu, Di Tommaso, S, Giannici, F, Mossuto Marculescu, A, Martorana, A, Adamo, C, and Labat, F
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Extended X-ray absorption fine structure ,Chemistry ,Inorganic chemistry ,General Physics and Astronomy ,Ionic bonding ,Space group ,perovskites, MLaNb2O7, DFT, Crystal ,Crystal structure ,Tetragonal crystal system ,Chemical physics ,X-ray crystallography ,Density functional theory ,Physical and Theoretical Chemistry ,Perovskite (structure) - Abstract
A comprehensive theoretical investigation of the MLaNb2O7 (M = H, Li, Na, K, Rb, and Cs) series of ion-exchangeable layered perovskite is presented. These perovskites are in particular interesting in view of their potential applications as inorganic supports for the design of new hybrid inorganic-organic proton conductors. In particular, their structural and electronic properties have been investigated by periodic calculations in the framework of Density Functional Theory, using different exchange-correlation functionals. A general very good agreement with the available experimental (XRD, NPD, and EXAFS) data has been found. The structure of the protonated HLaNb2O7 form has also been further clarified and a new tetragonal space group is proposed for this compound, better reproducing the experimental cell parameters and yielding to a more realistic picture of the system. The electronic investigation highlighted that all the compounds considered are very similar to each other and that the interaction between interlayer cations and perovskite slabs is purely ionic, except for the proton that is, instead, covalently bound.
- Published
- 2014
49. Morphology and local organization of water-containing (1R,2S)-Dodecyl(2-hydroxy-1-methyl-2-phenylethyl)dimethylammonium bromide reverse micelles dispersed in toluene
- Author
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Francesco Giannici, Dipanjan Banerjee, Giuseppe Portale, Alessandro Longo, Pietro Calandra, Vincenzo Turco Liveri, Longo, A, Giannici, F, Portale, G, Banerjee, D, Calandra, P, and Turco Liveri, V
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chemistry.chemical_classification ,Chiral, EXAFS, SAXS, liquid crystal ,Small-angle X-ray scattering ,Analytical chemistry ,General Physics and Astronomy ,Micelle ,chemistry.chemical_compound ,Crystallography ,chemistry ,Pulmonary surfactant ,Bromide ,Lamellar structure ,Physical and Theoretical Chemistry ,Counterion ,Absorption (chemistry) ,Alkyl - Abstract
The structure of (1R,2S)-dodecyl(2-hydroxy-1-methyl-2-phenylethyl)dimethylammonium bromide (DMEB) reverse micelles, at various water-to-surfactant molar ratio (R-w, R-w = [water]/[DMEB]) and DMEB concentrations, has been investigated by small angle X-ray scattering (SAXS) and extended X-ray absorption fine structure spectroscopy (EXAFS). SAXS data of dry reverse micelles are consistent with a model of spherical hydrophilic core surrounded by DMEB alkyl chains whose polydispersity decreases significantly with surfactant concentration. By adding water, a sphere to cylinder transition occurs leading to a one-dimensional growth of reverse micellar cores with R-w and surfactant concentration. The observed behavior was taken as an indication that water molecules are confined in the core of DMEB reverse micelles, quite uniformly distributed among them and mainly located among surfactant head groups. EXAFS data allow to focus within the hydrophilic micellar core to solve the short range local environment around the Br- counterion and to follow its changing with surfactant concentration and R-w. Analysis of Fourier transform of the EXAFS spectra indicates the existence of a local order nearby the bromide ions; pointing toward a quite structured hydrophilic core of DMEB reverse micelles. However, as a consequence of the fluid nature of reverse micelles, such local order is lower than that found in the lamellar structure of solid DMEB. Water confinement within the reverse micellar cores induces an increase of the local disorder suggesting an enhancement of the micellar core dynamics. (C) 2014 AIP Publishing LLC.
- Published
- 2014
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50. Formation and Growth of Pd Nanoparticles Inside a Highly Cross-Linked Polystyrene Support: Role of the Reducing Agent
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Elisa Borfecchia, Giuseppe Portale, Alessandro Longo, Liu Wei, Elena Groppo, Carlo Lamberti, Giovanni Agostini, Francesco Giannici, Groppo, E, Agostini, G, Borfecchia, E, Wei, L, Giannici, F, Portale, G, Longo, A, and Lamberti, C
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Materials science ,Extended X-ray absorption fine structure ,Reducing agent ,Small-angle X-ray scattering ,chemistry.chemical_element ,Nanoparticle ,Pd nanoparticles ,SAXS ,EXAFS ,XANES ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,Crystallography ,chemistry.chemical_compound ,General Energy ,chemistry ,Chemical engineering ,Palladium nanoparticles, time-resolved, X-ray Absorption Spectroscopy, Small Angle X-ray Spectroscopy, Transmission Electron Microscopy ,Diffuse reflection ,Polystyrene ,Physical and Theoretical Chemistry ,Palladium - Abstract
Simultaneous time-resolved SAXS and XANES techniques were employed to follow in situ the formation of Pd nanoparticles in a porous polystyrene support, using palladium acetate as a precursor and gaseous H2 or CO as reducing agents. These results, in conjunction with data obtained by diffuse reflectance UV–vis and DRIFT spectroscopy and TEM measurements, allowed unraveling of the different roles played by gaseous H2 and CO in the formation of the Pd nanoparticles. In particular, it was found that the reducing agent affects (i) the reduction rate (which is faster in the presence of CO) and (ii) the properties of the hosted nanoparticles, in terms of size (bigger with CO), morphology (spherical with H2, triangular-like with CO), and surface properties (unclean with CO). The importance of a multitechnique approach in following the whole process of metal nanoparticles formation clearly emerges.
- Published
- 2014
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