Your search keyword '"Giancane, Gabriele"' showing total 393 results

201. Characterization of composite phthalocyanine-fatty acid films from the air/water interface to solid supports

Author

Gabriele Giancane, Ludovico Valli, Antonio Serra, Vito Sgobba, Daniela Manno, Giancane, Gabriele, Manno, Daniela Erminia, Serra, Antonio, V., Sgobba, and Valli, Ludovico

Subjects

Indoles, Surface Properties, Composite number, Analytical chemistry, Isoindoles, Microscopy, Atomic Force, chemistry.chemical_compound, symbols.namesake, X-Ray Diffraction, Eicosanoic Acids, Microscopy, Materials Chemistry, Arachidic acid, Organometallic Compounds, Physical and Theoretical Chemistry, Brewster's angle, Air, Langmuir adsorption model, Water, Vanadium, Surfaces, Coatings and Films, chemistry, Ultrapure water, symbols, Phthalocyanine, Chloroform, Layer (electronics)

Abstract

A commercial vanadyl 2,9,16,23-tetraphenoxy-29H,31H-phthalocyanine (VOPc) was dissolved in chloroform and spread on ultrapure water subphase in a Langmuir trough. The floating film was thoroughly characterized at the air-water interface by means of the Langmuir isotherm, Brewster angle microscopy, UV-vis reflection spectroscopy, and infrared measurements carried out directly at the air-water interface. All the results showed the formation of a non-uniform and aggregated floating layer, too rigid to be transferred by the Langmuir-Blodgett (LB) method. For this reason, a mixture of arachidic acid and VOPc was realized, characterized, and transferred by the LB technique on solid substrates. Interface measurements and atomic force microscopy analysis suggested the formation of a uniform arachidic acid film and a superimposed VOPc placed in prone configuration.

Published

2011

202. Optical, morphological and structural characterization of Langmuir-Schaefer films of a functionalized copper phthalocyanine

Author

Ludovico Valli, Emanuela Filippo, Gabriele Giancane, Antonio Serra, Daniela Manno, Giancane, Gabriele, Filippo, Emanuela, Manno, Daniela Erminia, Serra, Antonio, and Valli, Ludovico

Subjects

Brewster's angle, Materials science, Indoles, Molecular Structure, Optical Phenomena, Surface Properties, Analytical chemistry, Membranes, Artificial, Molar absorptivity, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Biomaterials, Absorbance, symbols.namesake, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Transmission electron microscopy, Microscopy, symbols, Phthalocyanine, Organometallic Compounds, Particle Size, Raman spectroscopy, Refractive index

Abstract

Langmuir–Schaefer (LS) films of copper(II) tetrakis-(isoprpoxy-carbonyl)-phthalocyanine (TiPCuPc) have been deposited onto various solid supports. Its floating film have been characterized at the air–water interface by means of Brewster Angle Microscopy and Langmuir curves. Vibrational modes of multilayer transferred LS film have been studied by Raman spectroscopy and the optical parameters (refractive index n and extinction coefficient k ) have been determined in the visible range of the electromagnetic spectrum. Linearly polarized light absorbance measurements have been performed at room temperature in the 400–800 nm spectral range and the average orientation of the phthalocyanine rings have been estimated. Transmission electron microscopy has been also used to characterize the morphological properties of the LS film and a close packed arrangement of the deposited molecules has been observed.

Published

2011

203. Site-Sensitive Gas Sensing and Analyte Discrimination in Langmuir−Blodgett Porphyrin Films

Author

Ludovico Valli, Arnaldo D'Amico, C. Di Natale, A. Violante, Gabriele Giancane, S. Cirilli, Luca Tortora, P. Chiaradia, Rossella Yivlialin, Eugenio Martinelli, Claudio Goletti, Roberto Paolesse, B. Bonanni, Gianlorenzo Bussetti, Bussetti, G., Violante, A., Yivlialin, R., Cirilli, S., Bonanni, B., Chiaradia, P., Goletti, C, Tortora, Luca, Paolesse, R., Martinelli, E., D'Amico, A., Di Natale, C., Giancane, G., Valli, L., G., Bussetti, A., Violante, R., Yivlialin, S., Cirilli, B., Bonanni, P., Chiaradia, C., Goletti, L., Tortora, R., Paolesse, E., Martinelli, A., D’Amico, C., Di Natale, Giancane, Gabriele, and Valli, Ludovico

Subjects

Analyte, Chemistry, Electronic, Optical and Magnetic Material, Analytical chemistry, Surfaces, Coatings and Film, Porphyrin, Langmuir–Blodgett film, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Settore FIS/03 - Fisica della Materia, chemistry.chemical_compound, General Energy, Adsorption, Energy (all), Molecule, Physical and Theoretical Chemistry, Spectroscopy, Layer (electronics), Quartz

Abstract

We have studied the controlled adsorption of molecules of volatile compounds on thin Langmuir-Blodgett films of porphyrins deposited onto the surface of a quartz microbalance. The modification of the film optical anisotropy has been measured by reflectance anisotropy spectroscopy (RAS), and simultaneously, the amount of adsorbed molecules has been monitored. Optical spectra measured after adsorption of single analytes are interpreted straightforwardly in terms of anisotropies related to the H-like and J-like aggregation modes of porphyrins. By an appropriate selection of analytes, we have then investigated the effect of the exposure to controlled vapor mixtures. The experimental RAS line shape variation with respect to the signal measured before exposure is the sum of the variations produced by single analytes. This shows that the identification of types and even quantities of gases and vapors in gas sensing experiments is possible, and the responses of the sensing layer to single analytes could be listed in a library. © 2011 American Chemical Society.

Published

2011

204. Aligning Single-Walled Carbon Nanotubes By Means Of Langmuir-Blodgett Film Deposition: Optical, Morphological, and Photo-electrochemical Studies

Author

Dirk M. Guldi, Omar Hassan Omar, Vito Sgobba, Antonio Serra, Gabriele Giancane, Daniela Manno, Andrés Ruland, Gianluca M. Farinola, Ludovico Valli, Giancane, Gabriele, Andrés, Ruland, Vito, Sgobba, Manno, Daniela Erminia, Serra, Antonio, Gianluca M., Farinola, Omar Hassan, Omar, Dirk M., Guldi, and Valli, Ludovico

Subjects

chemistry.chemical_classification, Langmuir, Brewster's angle, Materials science, chemistry.chemical_element, Nanotechnology, Carbon nanotube, Polymer, Condensed Matter Physics, Langmuir–Blodgett film, Electronic, Optical and Magnetic Materials, law.invention, Biomaterials, symbols.namesake, chemistry, Chemical engineering, law, Phenylene, Electrochemistry, symbols, Carbon, Deposition (law)

Abstract

An alkoxy-substituted poly(phenylene thiophene) is used in order to suspend single-walled carbon nanotubes in an organic solvent. The suspension is spread on the air water interface of a Langmuir trough and the floating film is characterized by means of Brewster angle microscopy and UV-visible reflection spectroscopy and the compression isotherm is recorded. The polymer/carbon-nanotube blend is transferred onto different substrates using the Langmuir-Blodgett technique. AFM measurements indicate the formation of globular structures for the samples transferred at low surface-pressure values and a tubular morphology for high-pressure-deposited samples. AFM analysis is repeated on a sample exposed to soft X-rays for about 5 h and a highly organized structure of bundles of carbon nanotubes rises up. Samples with different numbers of layers are transferred onto ITO substrates by means of the Langmuir-Blodgett method and are tested as photocathodes in a photo-electrochemical cell. A V(oc) of 0.18 V, an I(sc) of 85.8 mA, FF of 40.0%, and eta of (6.23 x 10(-3))% are obtained.

Published

2010

205. Tetrakis-(isopropoxy-carbonyl)-copper-phthalocyanine thin films: deposition, characterization and application

Author

Gabriele Giancane, Ludovico Valli, Angela Agostiano, M. Lucia Curri, Chiara Ingrosso, Giancane, Gabriele, Chiara, Ingrosso, M., Lucia Curri, Angela, Agostiano, Valli, Ludovico, C., Ingrosso, M. L., Curri, and A., Agostiano

Subjects

Brewster's angle, Langmuir-Schaefer film, Analytical chemistry, General Chemistry, Quartz crystal microbalance, spectroscopy characterisation, symbols.namesake, chemistry.chemical_compound, phthalocyanine, chemistry, Chemical engineering, Attenuated total reflection, Microscopy, symbols, Phthalocyanine, Molecule, Thin film, Spectroscopy

Abstract

Thin films of pure tetrakis-(isopropoxy-carbonyl)-copper-phthalocyanine (TIPCuPc) , a novel functionalized phthalocyanine, and its hybrid junctions with colloidal rod-like TiO2 nanocrystals (NCs) were deposited in order to elucidate their properties and application in piezoelectric chemical sensors. The strong tendency of the phthalocyanine to assembly was confirmed at the air/water interface by advanced Brewster Angle Microscopy (BAM) and UV-vis reflection spectroscopy techniques. In particular, H-type aggregates, in situ and at the air/water interface, self-associate in aligned 3D bulky domains. The characteristics of the molecule and of the assemblies were studied in the solid state by means of UV-vis spectroscopy, Attenuated Total Reflection Fourier Transform Infrared (ATR-FTIR) spectroscopy and Atomic Force Microscopy (AFM). These studies prompted investigation of the operating conditions to process the bare TIPCuPc and related TiO2 NC-based hybrid junctions as sensing active layers for phenol pollutants integrated in a Quartz Crystal Microbalance (QCM). Interestingly, the preferentially oriented phthalocyanine LB-film undergoes chemical interactions with the NC film, which enhances the sensitivity of the QCM sensor.

Published

2010

206. Aligned single-wall carbon nanotube films by means of Langmuir-Blodgett deposition - optical, morphological and photoelectrochemical studies

Author

Sgobba, V., Gabriele Giancane, Ruland, A., Ludovico Valli, Daniela Manno, Antonio Serra, Farinola, G. M., Omar, O. H., Guldi, D. H., V., Sgobba, Giancane, Gabriele, A., Ruland, Valli, Ludovico, Manno, Daniela Erminia, Serra, Antonio, G. M., Farinola, O. H., Omar, and D. H., Guldi

Subjects

Langmuir-Blodgett film, optical characterisation, carbon nanotube, photoinduced phenomena

Published

2010

207. Dual-function multilayers for the photodelivery of nitric oxide and singlet oxygen

Author

Ludovico Valli, Gabriele Giancane, Salvatore Sortino, Giancane, Gabriele, Valli, Ludovico, and Salvatore, Sortino

Subjects

Brewster's angle, Porphyrins, Singlet Oxygen, Chemistry, Singlet oxygen, Spectrum Analysis, Analytical chemistry, Photochemistry, Nitric Oxide, Porphyrin, Fluorescence, Atomic and Molecular Physics, and Optics, symbols.namesake, chemistry.chemical_compound, Ultraviolet visible spectroscopy, symbols, Flash photolysis, Physical and Theoretical Chemistry, Thin film, Luminescence

Abstract

In this contribution we report the design, preparation and characterization of bichromophoric Langmuir-Schafer multilayer films which enable the simultaneous generation of nitric oxide (NO) and singlet oxygen (1)O(2) ((1)Delta(g)). They are achieved by exploiting effective interfacial electrostatic interactions between the floating film of a cationic amphiphilic nitric oxide (NO) photodonor and an anionic porphyrin dissolved in the water subphase. The morphology and the spectroscopic features of the floating films at the water-air interface are inspected by Brewster angle microscopy and UV/Vis reflection spectroscopy, respectively. Multilayer films containing both the chromogenic centres are obtained by horizontal lifting deposition onto hydrophobized quartz substrates and are characterized by steady-state UV/Vis absorption, fluorescence and laser flash photolysis. The anionic porphyrin units are entangled into the films network mainly in their monomeric forms and no significant intra and inter-chromophoric interaction occur in the excited state, preserving the photochemical independency of the two photoactive units in the multilayers. The capability of the bichromophoric films to delivery NO and singlet oxygen, (1)O(2) ((1)Delta(g)), under light excitation is unambiguously demonstrated by the direct and in real time monitoring of these transient species using an ultrasensitive electrode and a time-resolved infrared luminescence apparatus, respectively.

Published

2009

208. Functionalized copper(II)-phthalocyanine in solution and as thin film: photochemical and morphological characterization toward applications

Author

Paola Fini, M. Lucia Curri, Chiara Ingrosso, Gabriele Giancane, Ludovico Valli, Angela Agostiano, C., Ingrosso, M. L., Curri, P., Fini, Giancane, Gabriele, A., Agostiano, Valli, Ludovico, Chiara, Ingrosso, M., Lucia Curri, Paola, Fini, and Angela, Agostiano

Subjects

photochemistry, thin film, chemistry.chemical_element, Surfaces and Interfaces, Substrate (electronics), Langmuir-Blodgett technique, Photoelectrochemical cell, UV-Vis spectroscopy, Condensed Matter Physics, Photochemistry, Copper, Titanium oxide, phthalocyanine, chemistry.chemical_compound, chemistry, Nanocrystal, Electrochemistry, Phthalocyanine, General Materials Science, Thermal stability, Thin film, Spectroscopy

Abstract

This article reports on an extensive investigation on a functionalized phthalocyanine, namely, copper(II) tetrakis-(isopropoxy-carbonyl)-phthalocyanine (TIPCuPc). The self-association of the molecules is extensively described in solution in different solvents (DMSO, DMF, CHCl(3), pyridine) by means of UV-vis steady state spectroscopy at the air/water interface by Brewster angle microscopy (BAM) and in thin films by using atomic force microscopy (AFM). We investigated the morphology of TIPCuPc as thin film by evaluating different factors: temperature, solvent, concentration, transferring procedure (spin-coating and Langmuir-Schafer technique), and nature of the substrate (mica and quartz). The behavior of the molecules under UV light irradiation and their thermal stability were studied as well. Such a detailed study can allow a suitable processing of this phthalocyanine derivative for future applications. Here the photoelectrochemical activity of the phthalocyanine was investigated when suitably combined as sensitizer with rodlike TiO(2) nanocrystals (NCs) in hybrid junctions integrated in a photoelectrochemical cell.

Published

2009

209. Bichromophoric multilayer films for the light-controlled generation of nitric oxide and singlet oxygen

Author

Ludovico Valli, Elisa Vittorino, Gabriele Giancane, Salvatore Sortino, Simona Bettini, Elisa, Vittorino, Giancane, Gabriele, Bettini, Simona, Valli, Ludovico, and Salvatore, Sortino

Subjects

Brewster's angle, Absorption spectroscopy, Singlet oxygen, General Chemistry, Photochemistry, Porphyrin, symbols.namesake, chemistry.chemical_compound, chemistry, Materials Chemistry, symbols, Flash photolysis, Singlet state, Thin film, Visible spectrum

Abstract

In this contribution we report the design, preparation and characterization of bichromophoric Langmuir–Schafer multilayer films incorporating a tailored nitric oxide (NO) photodonor (1) and an ethylene-bridged zinc porphyrin dimer (2). They are achieved by exploiting the coordination of a pyridine appendage of the NO photodonor to the metal centers of the porphyrin units. Quite uniform floating films at the water–air interface are obtained spreading a mixture of 1:2 in the molar ratio 20:1 as confirmed by Brewster angle microscopy. The floating films are successfully transferred onto quartz slides by horizontal lifting deposition and the resulting hybrid multilayers are characterized by steady-state UV-Vis absorption, fluorescence and laser flash photolysis. The high ratio between the two chromogenic centers prevents the porphyrin aggregation, leading to photoresponsive bichromophoric films able to generate NO and singlet oxygen, 1O2 (1Δg), under the exclusive control of visible light stimuli.

Published

2009

210. QCM sensors for aqueous phenols based on active layers constituted by tetrapyrrolic macrocycle Langmuir films

Author

Elisabetta Mazzotta, Gabriele Giancane, Ludovico Valli, Rosaria Anna Picca, Cosimino Malitesta, Maria Rachele Guascito, Giancane, G., Guascito, M. R., Malitesta, C., Mazzotta, E., Picca, R. A., Valli, L., Giancane, Gabriele, Guascito, Maria Rachele, Malitesta, Cosimino, Mazzotta, Elisabetta, Picca, ROSARIA ANNA, and Valli, Ludovico

Subjects

Flow injection analysis, Langmuir, Aqueous solution, Brewster's angle, Phenol, Chemistry, Analytical chemistry, Langmuir-Blodgett film, General Chemistry, Quartz crystal microbalance, Brewster angle microscopy, UV-vis reflection spectroscopy, Crystal, symbols.namesake, Electrode, Microscopy, symbols, Piezoelectric sensor

Abstract

Three different metalated tetrapyrrolic macrocycles have been transferred by Langmuir-Blodgett technique directly onto piezoelectric quartz crystal covered with gold electrodes of a commercial quartz crystal microbalance instrument in order to perform a flow injection analysis. All floating films at the air-water interface have been analyzed by registration of Langmuir curves and by UV-vis reflection spectroscopy and brewster angle microscopy. The sensing performances of the modified gold electrodes were investigated by monitoring the frequency variation induced by the presence of several toxic phenols. The explored concentrations ranged around 10-3 M and the corresponding frequency variations ranged between 10 and 200 Hz. All responses observed were fast, reproducible and reversible; moreover, the active layers are stable over long periods of utilization. The observation that interferences from fulvic acid are absolutely negligible is also noteworthy. The responses are not selective for each singular phenol derivative; notwithstanding this, to the best of our knowledge, this contribution represents one of the first examples of sensing layers for the monitoring of the total content of phenols. © 2009 World Scientific Publishing Company.

Published

2009

211. Optical anisotropy readout in solid-state porphyrins for the detection of volatile compounds

Author

Arnaldo D'Amico, Roberto Paolesse, P. Chiaradia, Luca Tortora, Eugenio Martinelli, Gianlorenzo Bussetti, S. Cirilli, Gabriele Giancane, A. Violante, C. Di Natale, Claudio Goletti, Ludovico Valli, Bussetti, G, Cirilli, S., Violante, A., Chiaradia, P., Goletti, C., Tortora, Luca, Paolesse, R., Martinelli, E., D'Amico, A., Di Natale, C., Giancane, G., Valli, L., G., Bussetti, S., Cirilli, A., Violante, P., Chiaradia, C., Goletti, L., Tortora, R., Paolesse, E., Martinelli, A., D’Amico, C., Di Natale, Giancane, Gabriele, and Valli, Ludovico

Subjects

Optical anisotropy, Porphyrins, Physics and Astronomy (miscellaneous), Optical films, Analytical chemistry, Photochemistry, Settore FIS/03 - Fisica della Materia, Adsorption, Tetraphenylporphyrins, Molecule, Chemical sensing, Langmuirs, Reflectance anisotropy spectroscopy, Volatile compounds, Volatile organic compounds, Spectroscopy, Anisotropy, chemistry.chemical_classification, Polymer, Transducer, Optical coating, chemistry

Abstract

The controlled adsorption of molecules of volatile compounds on Langmuir-Schäfer films of tetraphenylporphyrins produces a modification of the film optical anisotropy, as revealed by reflectance anisotropy spectroscopy (RAS). These experiments allow a better understanding of the molecular package occurring in the film as well as of its alteration upon the interaction with volatile compounds, helping in the comprehension of the mechanisms responsible for the binding of molecules. The results recommend RAS as a potential transducer technique for chemical sensing. © 2009 American Institute of Physics.

Published

2009

212. Electrochemical and spectroscopic behavior of Iron(III) porphyrazines in Langmuir-Schäfer films

Author

Serena Casilli, Maria Rachele Guascito, Gabriele Giancane, Cosimino Malitesta, D. Pietrangeli, Gaetano Garramone, Livia Giotta, Sabrina Conoci, G. Ricciardi, D. Cesari, Ludovico Valli, Garramone, G, Pietrangeli, D, Ricciardi, G, Conoci, S, Guascito, Maria Rachele, Malitesta, Cosimino, Cesari, D, Casilli, Serena, Giotta, Livia, Giancane, Gabriele, and Valli, Ludovico

Subjects

Langmuir, Porphyrins, Brewster angle microscopy (BAM), Dimer, Iron, Analytical chemistry, Electrochemistry, UV-vis reflection spectroscopy, porphyrazine, symbols.namesake, chemistry.chemical_compound, coulometry, X-ray photoelectron spectroscopy, Cations, Materials Chemistry, Organometallic Compounds, Physical and Theoretical Chemistry, Thin film, Brewster's angle, Spectrum Analysis, Langmuir-Schaefer film, Porphyrazine, Surfaces, Coatings and Films, dynamic voltammetry, Monomer, chemistry, symbols, Dimerization

Abstract

Thin films of a newly synthesized iron(III) porphyrazine, LFeOESPz ( L = ClEtO, OESPz = ethylsulfanylporphyrazine), have been deposited by the Langmuir-Schafer (LS) technique (horizontal lifting) on ITO or gold substrates. Before deposition, the floating films have been investigated at the air-water interface by pressure/area per molecule (pi/ A) experiments, Brewster angle microscopy (BAM) and UV-vis reflection spectroscopy (RefSpec). The complex reacts with water subphase (pH 6.2) forming the mu-oxo dimer, which becomes the predominant component of the LS films ( LS-Fe) as indicated by optical, IR, XPS, and electrochemical data. LS-Fe multilayers exhibit, between open circuit potential (OCP) and +0.90 V (vs SCE), two independent peak pairs with formal potentials, E surf (I) and E surf(II) of +0.56 V and +0.78 V, respectively. According to dynamic voltammetric and coulometric experiments the peak pair at +0.56 V is attributed to one-electron process at the iron(III) centers on the monomer, while the peak pair at +0.78 V is associated to a four-electron process involving mu-oxo-dimer oligomers. LS-Fe films prove to be quite stable electrochemically between OCP and +0.90 V. The electrochemical stability decreases, however, when the potential range is extended both anodically and cathodically outside these limits, due to formation of new species. Upon incubation with TCA solutions, LS-Fe films show remarkable changes in the UV-vis spectra, which are consistent with a significant mu-oxo dimer --monomer conversion. Addition of TCA to the electrochemical cell using a LS-Fe film as working electrode, results in a linear increase of a cathodic current peak near -0.40 V as the TCA concentration varies in the 0.1-2.0 mM range. This behavior is interpreted in terms of TCA inducing a progressive change in the composition of the LS-Fe films in favor of the monomeric iron(III) porphyrazine, which is responsible for the observed increase in the cathodic current near -0.40 V.

Published

2008

213. Nitric oxide photoreleasing multilayer films

Author

Ludovico Valli, Salvatore Sortino, Gabriele Giancane, Valli, Ludovico, Giancane, Gabriele, and Salvatore, Sortino

Subjects

Brewster's angle, Absorption spectroscopy, Chemistry, Analytical chemistry, Cationic polymerization, General Chemistry, Brewster angle microscopy, UV-Vis reflection spectroscopy, photoinduced phenomena, nitric oxide photorelease, symbols.namesake, Electrode, Amphiphile, Microscopy, Materials Chemistry, symbols, Langmuir–Schaefer film, Deposition (law), Visible spectrum

Abstract

In this contribution we report the preparation and characterization of Langmuir–Schaefer (LS) multilayer films of a mesogen-bearing cationic amphiphile able to release nitric oxide (NO) under the exclusive control of light stimuli. The morphology and spectroscopic features of the floating films at the water–air interface are inspected by Brewster angle microscopy and UV-Vis reflection spectroscopy, respectively. Multilayer films are obtained by horizontal lifting deposition onto hydrophobized quartz substrates and characterized by UV-Vis absorption spectroscopy. The capability of these films to deliver NO is investigated by the direct monitoring of this radical species through an ultrasensitive NO electrode. The results obtained unequivocally demonstrate that the multilayers are stable in the dark but, in contrast, supply NO at nanomolar level upon illumination with visible light.

Published

2008

214. Artificial photosynthetic systems based on chlorophyll a/fullerene C60 blends assembled at the air-water interface

Author

A. Agostiano, S. Casilli, P. Cosma, L. Giotta, F. Milano, L. Valli, G. Giancane, A., Agostiano, S., Casilli, P., Cosma, Giotta, Livia, F., Milano, Valli, Ludovico, Giancane, Gabriele, and M. G., Macchia

Subjects

air-water interface, fullerene, Chlorophyll a, chlorophyll a/fullerene C60 blend, chlorophyll, films, Langmuir-Schaefer films, Fullerene C60, photoinduced phenomena

Abstract

Uso della tecnica LB per assemblare film clorofilla/fullerene per la conversione dell'energia

Published

2008

215. Organic thin film transistors as plastic chiral sensors

Author

Torsi, L., Farinola, G. M., Marinelli, F., Angione, D., Hassan, Omar O., Valli, L., Giancane, G., Babudri, F., Palmisano, F., Zambonin, P. G., Naso, F., L., Torsi, G. M., Farinola, F., Marinelli, D., Angione, O., Hassan Omar, Valli, Ludovico, Giancane, Gabriele, F., Babudri, F., Palmisano, P. G., Zambonin, and F., Naso

Subjects

Enantioselective, Materials science, business.industry, Bilayer, Transistor, Enantioselective synthesis, Langmuir-Blodgett film, OTFT, Plastic sensor, law.invention, Organic semiconductor, Transducer, Chiral sensor, Thin-film transistor, law, Alkoxypheniylenethieylenes, Optoelectronics, Sensitivity (control systems), business, Layer (electronics)

Abstract

Organic thin-film transistor (OTFT) sensors have been recently attracting the attention for their potential exploitation as novel sensors. Specificity and sensitivity are still open issues. Chiral discrimination is both a scientific and technological achievement in itself and, indeed, one of the most challenging sensor's bench-test. In the present work, a chiral bilayer OTFT gas sensor-comprising an outermost layer with built in enantioselective properties-is demonstrated to exhibit field-effect amplified sensitivity that allows differential detection of optical isomers in the tens part-per-million (ppm) concentration range. The ad hoc designed organic semiconductor, endowed with chiral side groups, the bilayer structure and the TFT transducer, provide a significant step further in the development of a performing and versatile sensing platform compatible with flexible organic electronic technologies. © 2008 IEEE.

Published

2008

216. Growth and Characterization of Films Containing Fullerenes and Water Soluble Porphyrins for Solar Energy Conversion Applications

Author

Serena Casilli, Vito Sgobba, Maurizio Prato, Dirk M. Guldi, Ludovico Valli, Sabrina Conoci, Giampaolo Ricciardi, Gabriele Giancane, V., Sgobba, G., Giancane, S., Conoci, S., Casilli, G., Ricciardi, D. M., Guldi, Prato, Maurizio, L., Valli, Giancane, Gabriele, Casilli, Serena, M., Prato, and Valli, Ludovico

Subjects

Fullerene, Porphyrins, Motion Pictures, Static Electricity, Analytical chemistry, Surface pressure, Photochemistry, Biochemistry, Catalysis, chemistry.chemical_compound, symbols.namesake, Colloid and Surface Chemistry, Solar Energy, Thin film, Spectroscopy, Aqueous solution, Brewster's angle, Langmuir-Schaefer film, photoaction spectra, Water, General Chemistry, Fulleropyrrolidine derivative, Brewster angle microscopy, Porphyrin, UV-visible reflection spectroscopy, chemistry, Solubility, Attenuated total reflection, symbols, ", Spectrophotometry, Ultraviolet, Fullerenes, porphyrin

Abstract

Thin films consisting of two fulleropyrrolidine derivatives 1 or 2 and a water-soluble porphyrin, TPPS4, were prepared by the Langmuir-Schafer (LS, horizontal lifting) method. In particular, a solution of the fulleropyrrolidine in chloroform and dimethyl sulfoxide was spread on the water surface, while the porphyrin (bearing peripheral anionic sulfonic groups) was dissolved into the aqueous subphase. To the best of our knowledge, such a versatile method for film fabrication of fullerene/porphyrin mixed composite films has never been used by other researchers. Evidence of the effective interactions between the two components at the air-water interface was obtained from the analysis of the floating layers by means of surface pressure vs area per molecule Langmuir curves, Brewster angle microscopy, and UV-visible reflection spectroscopy. The characterization of the LS films by UV-visible spectroscopy reveals that in each case the two constituents behave as strongly interacting pi systems. The use of polarized light suggests the existence of a preferential direction of the TPPS4 macrocyclic rings with an edge-on arrangement with respect to the substrate surface, regardless which fulleropyrrolidine derivative is in the composite film. Atomic force microscopy investigations give evidence of morphologically flat layers even for LS transfer at low surface pressures. Photoaction spectra were recorded from films deposited by only one horizontal lifting onto indium-tin-oxide (ITO) electrodes, and the observed photocurrent increased notably with increasing transfer surface pressure for both 1/TPPS4 and 2/TPPS4 composite films. IPCE values are larger for 2/TPPS4 systems in comparison with 1/TPPS4 composite layers. Finally, a nonconventional approach to photoinduced phenomena is proposed by differential spectroscopy in the FT-IR attenuated total reflectance (ATR) mode.

Published

2007

217. Photoresponsive multilayer films by assembling cationic amphiphilic cyclodextrins and anionic porphyrins at the air/water interface

Author

Valli, L, Giancane, G, Mazzaglia, A, MONSU' SCOLARO, Luigi, Conoci, Sabrina, Sortino, S., Valli, Ludovico, Giancane, Gabriele, A., Mazzaglia, L., MONSÙ SCOLARO, S., Conoci, and S., Sortino

Subjects

chemistry.chemical_classification, LANGMUIR-BLODGETT-FILMS, Cyclodextrin, Singlet oxygen, Langmuir-Schaefer film, Cationic polymerization, BILAYER VESICLES, fluorescence emission, General Chemistry, Photochemistry, Fluorescence, STATE, Condensed Matter::Soft Condensed Matter, chemistry.chemical_compound, chemistry, CHEMISTRY, Monolayer, Amphiphile, Materials Chemistry, Organic chemistry, FLUORESCENCE, Absorption (chemistry), porphyrin, Deposition (law)

Abstract

Densely packed hybrid monolayers of amphiphilic cyclodextrins incorporating hydrophilic porphyrins are formed at the air/water interface through electrostatic interaction and can be transferred onto quartz substrates by Langmuir-Scha¨fer deposition. The resulting multilayers exhibit a good response to light excitation as proven by fluorescence emission, triplet- triplet absorption and singlet oxygen photogeneration.

Published

2007

218. Phenol chemisorption onto phthalocyanine thin layers probed by ATR-FTIR difference spectroscopy

Author

Ludovico Valli, Livia Giotta, Disma Mastrogiacomo, Pierangelo Metrangolo, Tamara Basova, Gabriele Giancane, Giotta, Livia, Giancane, Gabriele, Disma, Mastrogiacomo, Tamara, Basova, Pierangelo, Metrangolo, and Valli, Ludovico

Subjects

Thin layers, Infrared, Chemistry, Analytical chemistry, General Physics and Astronomy, Infrared spectroscopy, phthalocyanines, Photochemistry, chemistry.chemical_compound, IR spectroscopy, sensor, Chemisorption, Attenuated total reflection, Phthalocyanine, phenol, Physical and Theoretical Chemistry, Fourier transform infrared spectroscopy, Spectroscopy

Abstract

Attenuated total reflection Fourier transform infrared (ATR-FTIR) difference spectroscopy has been employed as a powerful method for the comprehension of active layer– analyte interactions, revealing interesting mechanistic aspects concerning the binding of halogen-substituted phenols onto phthalocyanine Langmuir–Schaefer films.

Published

2009

219. The role of the central metal ion of ethane-bridged bis-porphyrins in histidine sensing

Author

Rosanna Pagano, Ludovico Valli, Gabriele Giancane, Simona Bettini, Victor V. Borovkov, Bettini, Simona, Pagano, Rosanna, Borovkov, Victor, Giancane, Gabriele, Valli, Ludovico, Bettini, S., Pagano, R., Borovkov, V., Giancane, G., and Valli, L.

Subjects

Analyte, Porphyrins, Histidine sensing, Sensing applications, Surface Properties, Langmuir film, Surfaces, Coatings and Film, 02 engineering and technology, 010402 general chemistry, Photochemistry, 01 natural sciences, Bis-porphyrin, Biomaterials, Metal, Porphyrin, chemistry.chemical_compound, Colloid and Surface Chemistry, Coordination Complexes, Nickel, Histidine, Surface plasmon resonance, Ion, Particle Size, Ions, Ethane, Aqueous medium, Coordination Complexe, Molecular Structure, Electronic, Optical and Magnetic Material, Free base, Surface Plasmon Resonance, 021001 nanoscience & nanotechnology, Biomaterial, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry, visual_art, visual_art.visual_art_medium, 0210 nano-technology, Copper

Abstract

Ethane-bridged bis-porphyrin derivatives are reported for the selective detection of various analytes in sensing applications. The central metal ion is able to rule specific molecular arrangements upon analyte binding. Three bis-porphyrin compounds: a free base (metal free), Ni complex, and Cu complex, have been tested for histidine detection in aqueous media. Histidine is involved in various biological processes, including such deadly disease as lung cancer. The conformational changes of bis-porphyrins, induced by histidine binding, can be detected by monitoring the Soret band position. The spectroscopic characterization, at the air-water subphase interface, indicates that, in the presence of histidine, the Ni and Cu metallated derivatives undergo conformational changes. This behaviour was confirmed when these two derivatives were deposited onto the solid support by Langmuir-Schaefer (LS) technique. A prototypal Surface Plasmon Resonance (SPR) detection system for histidine based on these two porphyrin LS films was developed. The Cu substituted compound based SPR system allows the histidine sensing down to nanomolar concentration. Furthermore, a SPR response of the Ni bis-porphyrin shows a semilogarithmic dependence on the histidine concentration up to 10−6 M proposing the use of these two porphyrins in a sensor array for the monitoring of histidine levels in plasma.

220. Langmuir-Blodgett films of aligned single wall carbon nanotubes. Morphological and photoelectrochemical studies

Author

Gabriele Giancane, Ruland, A., Sgobba, V., Daniela Manno, Antonio Serra, Farinola, G. M., Hassan Omar, O., Guldi, D. M., Ludovico Valli, Giancane, Gabriele, A., Ruland, V., Sgobba, Manno, Daniela Erminia, Serra, Antonio, G. M., Farinola, O., Hassan Omar, D. M., Guldi, and Valli, Ludovico

Subjects

Langmuir-Blodgett film, Single wall carbon nanotube, photoelectrochemistry

221. Synthesis and thin film deposition of amphiphilic piezoelectric ZnO adduct

Author

Simona Bettini, Pagano, Rosanna, Bonfrate, Valentina, Maglie, Emanuela, Daniela Manno, Antonio Serra, Ludovico Valli, Gabriele Giancane, Bettini, Simona, Pagano, Rosanna, Bonfrate, Valentina, Maglie, Emanuela, Manno, Daniela Erminia, Serra, Antonio, Valli, Ludovico, and Giancane, Gabriele

222. Aligning single-wall carbon nanotubes by means of Langmuir-Blodgett film deposition - optical, morphological and photoelectrochemical studies

Author

Ludovico Valli, Gabriele Giancane, Andrés, Ruland, Vito, Sgobba, Daniela Manno, Antonio Serra, Farinola, Gianluca M., Omar Hassan Omar, Guldi, Dirk M., Valli, Ludovico, Giancane, Gabriele, Andrés, Ruland, Vito, Sgobba, Manno, Daniela Erminia, Serra, Antonio, Gianluca M., Farinola, Omar Hassan, Omar, and Dirk M., Guldi

Subjects

Brewster Angle Microscopy, Langmuir-Blodgett film, spectroscopy characterisation, Carbon nanotube, Atomic Force Microscopy

Abstract

An alkoxy-substituted poly(phenylene thiophene) is used in order to suspend single-walled carbon nanotubes in an organic solvent. The suspension is spread on the air–water interface of a Langmuir trough and the floating film is characterized by means of Brewster angle microscopy and UV-visible reflection spectroscopy and the compression isotherm is recorded. The polymer/carbon-nanotube blend is transferred onto different substrates using the Langmuir–Blodgett technique. AFM measurements indicate the formation of globular structures for the samples transferred at low surface-pressure values and a tubular morphology for high-pressure-deposited samples. AFM analysis is repeated on a sample exposed to soft X-rays for about 5 h and a highly organized structure of bundles of carbon nanotubes rises up. Samples with different numbers of layers are transferred onto ITO substrates by means of the Langmuir–Blodgett method and are tested as photocathodes in a photo-electrochemical cell. A Voc of 0.18 V, an Isc of 85.8mA, FF of 40.0%, and h of (6.23T103 )% are obtained.

223. Chirality induction to porphyrin derivatives co-confined at the air-water interface with silica nano-helices: towards enantioselective thin solid film surfaces.

Author

Ottolini M, Anfar Z, Grover N, Magna G, Stefanelli M, Paolesse R, Senge MO, Bettini S, Valli L, Oda R, and Giancane G

Abstract

A supramolecular approach based on self-assembled structures allows the formation of large structured co-assemblies based on chiral and achiral compounds with original physicochemical features. In this contribution, an achiral and hydrophobic porphyrin was co-assembled at the air-water interface with mesoscopic silica nano-helices dispersed in the water subphase of a Langmuir trough without covalent bond formation. This procedure allowed transferring the porphyrin/nano-helix co-assemblies on a solid support within a thin hybrid layer. The interaction between the two species was characterized using spectroscopic techniques and atomic force microscopy. As evidenced by the circular dichroism measurements performed directly on solid films, tunable chirality was induced to the porphyrin aggregates according to the chirality of the silica nano-helices. When the co-assemblies were transferred on surface plasmon resonance (SPR) slides and exposed to aqueous solutions of histidine enantiomers, selective chiral discrimination was observed which was determined by the matching/mismatching between the chirality of the analyte and the helicity of the nano-helical structure.

Published

2024

224. Chiral Recognition by Supramolecular Porphyrin-Hemicucurbit[8]uril-Functionalized Gravimetric Sensors.

Author

Magna G, Šakarašvili M, Stefanelli M, Giancane G, Bettini S, Valli L, Ustrnul L, Borovkov V, Aav R, Monti D, Di Natale C, and Paolesse R

Abstract

Enantiorecognition of a chiral analyte usually requires the ability to respond with high specificity to one of the two enantiomers of a chiral compound. However, in most cases, chiral sensors have chemical sensitivity toward both enantiomers, showing differences only in the intensity of responses. Furthermore, specific chiral receptors are obtained with high synthetic efforts and have limited structural versatility. These facts hinder the implementation of chiral sensors in many potential applications. Here, we utilize the presence of both enantiomers of each receptor to introduce a novel normalization that allows the enantio-recognition of compounds even when single sensors are not specific for one enantiomer of a target analyte. For this purpose, a novel protocol that permits the fabrication of a large set of enantiomeric receptor pairs with low synthetic efforts by combining metalloporphyrins with ( R , R )- and ( S , S )-cyclohexanohemicucurbit[8]uril is developed. The potentialities of this approach are investigated by an array of four pairs of enantiomeric sensors fabricated using quartz microbalances since gravimetric sensors are intrinsically non-selective toward the mechanism of interaction of analytes and receptors. Albeit the weak enantioselectivity of single sensors toward limonene and 1-phenylethylamine, the normalization allows the correct identification of these enantiomers in the vapor phase indifferent to their concentration. Remarkably, the achiral metalloporphyrin choice influences the enantioselective properties, opening the way to easily obtain a large library of chiral receptors that can be implemented in actual sensor arrays. These enantioselective electronic noses and tongues may have a potential striking impact in many medical, agrochemical, and environmental fields.

Published

2023

225. Synthesis and Characterization of Gold Chiral Nanoparticles Functionalized by a Chiral Drug.

Author

Bettini S, Ottolini M, Valli D, Pagano R, Ingrosso C, Roeffaers M, Hofkens J, Valli L, and Giancane G

Abstract

Inorganic chiral nanoparticles are attracting more and more attention due to their peculiar optical properties and potential biological applications, such as bioimaging, therapeutics, and diagnostics. Among inorganic chiral nanoparticles, gold chiral nanostructures were demonstrated to be very interesting in this context, with good physical chemical stability and also the possibility to decorate the surface, improving biomedical application as the interaction with the bio-systems. Gold (Au) nanostructures were synthesized according to a seed-mediated procedure which envisages the use of cetyltrimethylammonium bromide (CTAB) as the capping agent and L- and D-cysteine to promote chirality. Au nanostructures have been demonstrated to have opposite circular dichroism signals depending on the amino acid enantiomer used during the synthesis. Then, a procedure to decorate the Au surface with penicillamine, a drug used for the treatment of Wilson's disease, was developed. The composite material of gold nanoparticles/penicillamine was characterized using electron microscopy, and the penicillamine functionalization was monitored by means of UV-Visible, Raman, and infrared spectroscopy, highlighting the formation of the Au-S bond. Furthermore, electron circular dichroism was used to monitor the chirality of the synthesized nanostructures and it was demonstrated that both penicillamine enantiomers can be successfully bonded with both the enantiomers of the gold nanostructures without affecting gold nanoparticles' chirality. The effective modification of nanostructures' surfaces via penicillamine introduction allowed us to address the important issue of controlling chirality and surface properties in the chiral nano-system.

Published

2023

226. Microplastics pollution in freshwater fishes in the South of Italy: Characterization, distribution, and correlation with environmental pollutants.

Author

Forgione G, Izzo F, Mercurio M, Cicchella D, Dini L, Giancane G, and Paolucci M

Subjects

Animals, Microplastics, Plastics chemistry, Fresh Water, Fishes, Environmental Monitoring methods, Environmental Pollutants, Water Pollutants, Chemical analysis

Abstract

In this study, we investigated the presence, abundance, and chemical nature of microplastics (MPs) in the freshwater fish gastrointestinal tract in the South of Italy, and evaluated the possible correlation between MPs and environmental pollutants. Fifty specimens belonging to five species (Scardinius erythrophthalmus, Barbus barbus, Rutilus rubilio, Leuciscus cephalus, Salmo trutta), from twenty sites were collected. MPs chemical feature was identified by means of Attenuated Total Reflection-Fourier Transform Infrared (ATR-FTIR) and Raman microscopy. MPs were represented by 34.86 % fragments, film, and foam (all together MPs) and 65.14 % by fibers (MFs). The mean number of MPs/MFs per fish ranged from 6.25 ± 4.35 in R. rubilio and 2.26 ± 1.94 in B. barbus. The highest number of MPs/MFs per g of GIT was found in R. rubilio (9.07 ± 9.66), and the lowest in S. erythrophthalmus (0.75 ± 0.53). The highest number of MPs/MFs per fish species was found in L. cephalus (16), and the lowest in S. erythrophthalmus (4). Black predominated in every type of plastic debris identified, followed by blue and white, respectively for MFs and MPs. Polyethylene (PE), polyethylene terephthalate (PET), polystyrene (PS), and polypropylene (PP), were the main plastic polymers found. At fish sampling sites, comparing concentrations in soils of potentially toxic elements and persistent organic pollutants with the number of MPs/MFs in fish, a significant correlation was noted with polychlorinated biphenyls (PCBs) and, in particular, with PCB 105, PCB 118, PCB 156, PCB 157, and PCB 167. A strong correlation was also observed with all types of polycyclic aromatic hydrocarbon (PAHs) particularly with benzo(ghi)perylene, dibenz(a,h)anthracene, benzo(b)fluoranthene, benz(a)anthracene, benzo(a)pyrene, and pyrene. The results of this study would be useful to draft management and action plans, promote intervention plans aiming at removing threats to species and habitats, and address ways of renaturalization., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: The financial support was provided by the University of Sannio (fondi FRA) and Campania Region PO FEAMP CAMPANIA 2014/2020 Misura 1.44 to Marina Paolucci., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2023

227. Synthesis, Functionalization and Applications of Nanocarbons.

Author

Bettini S and Giancane G

Abstract

The Special Issue "Synthesis, Functionalization and Applications of Nanocarbons" starts from the growing interest of the scientific community in carbon-based materials and the various applications of these versatile compounds [...].

Published

2022

228. Enantioselective Discrimination of Histidine by Means of an Achiral Cubane-Bridged Bis-Porphyrin.

Author

Bettini S, Grover N, Ottolini M, Mattern C, Valli L, Senge MO, and Giancane G

Subjects

Histidine, Molecular Conformation, Stereoisomerism, Porphyrins

Abstract

A Langmuir film of cubane-bridged bisporphyrin ( H 2 por-cubane-H 2 por ) at the air/water interface was developed and characterized. The floating film was successfully employed for the chiral discrimination between l- and d-histidine. The enantioselective behavior persisted after the deposition of the film on a solid support using the Langmuir-Schaefer method. Distinct absorption and reflection spectra were observed in the presence of l- or d-histidine, revealing that conformational switching was governed by the interaction between H 2 por-cubane-H 2 por and the histidine enantiomer. The mechanism of chiral selection was investigated using an ad hoc modified nulling ellipsometer, indicating the anti-conformation was dominant in the presence of l-histidine, whereas the presence of d-histidine promoted the formation of tweezer conformation.

Published

2021

229. Coffee Grounds-Derived CNPs for Efficient Cr(VI) Water Remediation.

Author

Bettini S, Ottolini M, Pagano R, Pal S, Licciulli A, Valli L, and Giancane G

Abstract

Carbon nanomaterials are a group of materials characterized by sp 2 /sp 3 carbon backbone which, combined with surface atoms and/or chemical groups, ensures peculiar physical chemical features for a wide range of applications. Among these materials, carbon dots and carbon nanoparticles belong to carbon nanomaterials with a few nanometer dimensions. In this work, carbon nanoparticles were produced from spent coffee grounds as sustainable carbon source through a simple, cheap and eco-friendly procedure according to an oxidation process (at controlled temperature) driven by hydrogen peroxide. Atomic Force Microscope (AFM) and fluorescence, UV-Vis absorption, FT-IR and Raman spectroscopy were used to assess the formation of carbon nanomaterials of about 10 nm with the typical emission and absorption properties of carbon dots and peculiar surface features. In fact, the presence of heteroatoms, i.e., phosphorus, and the carbonyl/carboxyl surface groups on carbon nanoparticles, was proposed to confer peculiar properties allowing the fast Mn(VII) reduction to Mn(II) at neutral pH and the Cr(VI) reduction to Cr(III) in weak acid aqueous media.

Published

2021

230. Paramagnetic Functionalization of Biocompatible Scaffolds for Biomedical Applications: A Perspective.

Author

Bettini S, Bonfrate V, Valli L, and Giancane G

Abstract

The burst of research papers focused on the tissue engineering and regeneration recorded in the last years is justified by the increased skills in the synthesis of nanostructures able to confer peculiar biological and mechanical features to the matrix where they are dispersed. Inorganic, organic and hybrid nanostructures are proposed in the literature depending on the characteristic that has to be tuned and on the effect that has to be induced. In the field of the inorganic nanoparticles used for decorating the bio-scaffolds, the most recent contributions about the paramagnetic and superparamagnetic nanoparticles use was evaluated in the present contribution. The intrinsic properties of the paramagnetic nanoparticles, the possibility to be triggered by the simple application of an external magnetic field, their biocompatibility and the easiness of the synthetic procedures for obtaining them proposed these nanostructures as ideal candidates for positively enhancing the tissue regeneration. Herein, we divided the discussion into two macro-topics: the use of magnetic nanoparticles in scaffolds used for hard tissue engineering for soft tissue regeneration.

Published

2020

231. Applications of Photoinduced Phenomena in Supramolecularly Arranged Phthalocyanine Derivatives: A Perspective.

Author

Bettini S, Valli L, and Giancane G

Subjects

Electron Transport, Isoindoles, Thermodynamics, Indoles chemistry, Light, Photochemistry, Polymers chemistry

Abstract

This review focuses on the description of several examples of supramolecular assemblies of phthalocyanine derivatives differently functionalized and interfaced with diverse kinds of chemical species for photo-induced phenomena applications. In fact, the role of different substituents was investigated in order to tune peculiar aggregates formation as well as, with the same aim, the possibility to interface these derivatives with other molecular species, as electron donor and acceptor, carbon allotropes, cyclodextrins, protein cages, drugs. Phthalocyanine photo-physical features are indeed really interesting and appealing but need to be preserved and optimized. Here, we highlight that the supramolecular approach is a versatile method to build up very complex and functional architectures. Further, the possibility to minimize the organization energy and to facilitate the spontaneous assembly of the molecules, in numerous examples, has been demonstrated to be more useful and performing than the covalent approach.

Published

2020

232. Photocatalytic Degradation of Tetracycline by ZnO/γ-Fe 2 O 3 Paramagnetic Nanocomposite Material.

Author

Semeraro P, Bettini S, Sawalha S, Pal S, Licciulli A, Marzo F, Lovergine N, Valli L, and Giancane G

Abstract

In recent years, the presence of numerous xenobiotic substances, such as antibiotics, has been detected in water environments. They can be considered as environmental contaminants, even if their effect on human health has yet to be totally understood. Several approaches have been studied for the removal of these kinds of pollutants. Among these compounds, tetracycline (TC), a broad-spectrum antibiotic, is one of the most commonly found in water due to its widespread use. In the context of reducing the presence of TC in aqueous solution, in this contribution, a composite catalyst based on zinc oxide (ZnO) and iron oxide (γ-Fe 2 O 3 ) was developed and its photocatalytic properties were investigated. The catalytic materials were synthesized by a microwave-assisted aqueous solution method and characterized by Field Emission Scanning Electron Microscope (FESEM), X-Ray Fluorescence (XRF) and Brunauer-Emmett-Teller (BET) analysis. The TC concentration was evaluated by spectrophotometer measurements at specific time intervals. The performed photocatalytic experiments clearly demonstrated that the ZnO/γ-Fe 2 O 3 composite catalyst presents significant photocatalytic activity, indeed a TC degradation efficiency of 88.52% was registered after 150 min. The presence of iron oxide in the structure of the catalyst enhances both the surface area and the pore volume, facilitating the adsorption of the analyte on the surface of nanostructures, a fundamental phase to optimize a photodegradation process. Moreover, ZnO was found to play the key role in the photocatalytic process assisted by γ-Fe 2 O 3 which enhanced the TC degradation efficiency by 20%.

Published

2020

233. An insight on type I collagen from horse tendon for the manufacture of implantable devices.

Author

Salvatore L, Gallo N, Aiello D, Lunetti P, Barca A, Blasi L, Madaghiele M, Bettini S, Giancane G, Hasan M, Borovkov V, Natali ML, Campa L, Valli L, Capobianco L, Napoli A, and Sannino A

Subjects

Animals, Mice, NIH 3T3 Cells, Biocompatible Materials, Collagen Type I chemistry, Horses, Tendons chemistry, Tissue Engineering, Tissue Scaffolds

Abstract

Type I collagen is the most abundant protein of the human body. Due to its favourable properties, collagen extracted from animal tissues is adopted to manufacture a wide range of devices for biomedical applications. Compared to bovine and porcine collagens, which are the most largely used, equine collagen is free from the risk of zoonosis, has no reported immune reactions, and has not religious constraints. In this work, a recently available type I collagen extracted from horse tendon was evaluated and compared with a commercially available collagen isoform derived from the same species and tissue. Detailed physical, chemical and biological investigations were performed, in agreement with the requirements of the current standard for the characterization of type I collagen to be used for the manufacture of Tissue Engineering Medical Products. To the best of our knowledge, this is the first report on the complete primary structure of the investigated collagen., Competing Interests: Declaration of competing interest At the time of the experimental work, LC and MLN were employees of Typeone Srl. LS was CTO of the company. All other authors declare no conflicts of interest., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

234. Wet Synthesis of Elongated Hexagonal ZnO Microstructures for Applications as Photo-Piezoelectric Catalysts.

Author

Pagano R, Ingrosso C, Giancane G, Valli L, and Bettini S

Abstract

It is well known that energetic demand and environmental pollution are strictly connected; the side products of vehicle and industrial exhausts are considered extremely dangerous for both human and environmental health. In the last years, the possibility to simultaneously photo-degrade water dissolved pollutants by means of ZnO nanostructures and to use their piezoelectric features to enhance the photo-degradation process has been investigated. In the present contribution, an easy and low-cost wet approach to synthetize hexagonal elongated ZnO microstructures in the wurtzite phase was developed. ZnO performances as photo-catalysts, under UV-light irradiation, were confirmed on water dissolved methylene blue dye. Piezoelectric responses of the synthetized ZnO microstructures were evaluated, as well, by depositing them into films onto flexible substrates, and a home-made layout was developed, in order to stimulate the ZnO microstructures deposited on solid supports by means of mechanical stress and UV photons, simultaneously. A relevant increment of the photo-degradation efficiency was observed when the piezopotential was applied, proposing the present approach as a completely eco-friendly tool, able to use renewable energy sources to degrade water solved pollutants.

Published

2020

235. Supramolecular Chiral Discrimination of D-Phenylalanine Amino Acid Based on a Perylene Bisimide Derivative.

Author

Bettini S, Syrgiannis Z, Ottolini M, Bonfrate V, Giancane G, Valli L, and Prato M

Abstract

The interaction between homochiral substituted perylene bisimide (PBI) molecule and the D enantiomer of phenylalanine amino acid was monitored. Spectroscopic transitions of PBI derivative in aqueous solution in the visible range were used to evaluate the presence of D-phenylalanine. UV-visible, fluorescence, FT-IR, and AFM characterizations showed that D-phenylalanine induces significant variations in the chiral perylene derivative aggregation state and the mechanism is enantioselective as a consequence of the 3D analyte structure. The interaction mechanism was further investigated in presence of interfering amino acid (D-serine and D-histidine) confirming that both chemical structure and its 3D structure play a crucial role for the amino acid discrimination. A D-phenylalanine fluorescence sensor based on perylene was proposed. A limit of detection (LOD) of 64.2 ± 0.38 nM was calculated in the range 10 -7 -10 -5 M and of 1.53 ± 0.89 μM was obtained in the range 10 -5 and 10 -3 M., (Copyright © 2020 Bettini, Syrgiannis, Ottolini, Bonfrate, Giancane, Valli and Prato.)

Published

2020

236. SiO 2 -Coated ZnO Nanoflakes Decorated with Ag Nanoparticles for Photocatalytic Water Oxidation.

Author

Bettini S, Pagano R, Semeraro P, Ottolini M, Salvatore L, Marzo F, Lovergine N, Giancane G, and Valli L

Abstract

Many strategies have been adopted to improve the photoinduced features of zinc oxide nanostructures for different application fields. In this work, zinc oxide has been synthesised and decorated by plasmonic metal nanoparticles to enhance its photocatalytic activity in the visible range. Furthermore, an insulating layer of SiO 2 has been grown between the surface of zinc oxide nanoflakes and silver nanoparticles. A synthetic procedure that allows the accurate modulation of the insulating layer thickness in the range 5-40 nm has been developed. Evidences highlight the crucial role of the SiO 2 layer in dramatically increasing photocatalytic water oxidation promoted by the nanostructure under both UV and visible illumination. An ideal thickness value of about 10 nm has been demonstrated to guarantee the plasmon-induced resonance energy-transfer process and to quench the Förster resonance energy-transfer mechanism; thus, optimising the local surface plasmon resonance effect and water oxidation properties., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

237. Singlet oxygen photo-production by perylene bisimide derivative Langmuir-Schaefer films for photodynamic therapy applications.

Author

Semeraro P, Syrgiannis Z, Bettini S, Giancane G, Guerra F, Fraix A, Bucci C, Sortino S, Prato M, and Valli L

Abstract

A perylene bisimide (PBI) derivative was utilized as photosensitizer for photodynamic therapy (PDT) applications, due to its high efficiency in singlet oxygen generation upon photoexcitation. It was immobilized onto a hydrophobized solid support, by means of the Langmuir-Schaefer (LS) technique, to achieve a preliminary medical device able to induce death of cancer cells in vitro. First, PBI derivative solutions, at two different concentrations (4.2 × 10 -5 and 1.5 × 10 -4 M) were chosen, based on the different PBI aggregation state, to be spread onto a water subphase in a Langmuir trough. Physico-chemical and morphological characterizations of the floating films were performed. Then the floating layers were transferred onto quartz substrates. The resulting multilayer LS films were characterized by spectroscopic measurements showing that the photochemical properties of the PBI derivative were well preserved even when immobilized. The LS film that exhibited the highest efficiency in the singlet oxygen production under light excitation was assessed in in vitro tests on human cervical carcinoma C13 cell line and the photo-toxicity was measured. This study revealed absence of cytotoxicity in dark conditions and a high photo-cytotoxicity toward cancer cells, making it a promising photoactive device., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

238. Perylene Bisimide Aggregates as Probes for Subnanomolar Discrimination of Aromatic Biogenic Amines.

Author

Bettini S, Syrgiannis Z, Pagano R, D Ord Ević L, Salvatore L, Prato M, Giancane G, and Valli L

Subjects

Biogenic Amines chemistry, Coloring Agents chemistry, Fluorescence, Imides chemistry, Perylene analogs & derivatives, Perylene chemistry, Phenethylamines chemistry, Quantum Dots chemistry, Solutions chemistry, Surface Plasmon Resonance, Tyramine chemistry, Water chemistry, Biogenic Amines isolation & purification, Biosensing Techniques, Phenethylamines isolation & purification, Tyramine isolation & purification

Abstract

Perylene bisimide derivatives show peculiar physical chemical features, such as a highly conjugated system, high extinction coefficients and elevated fluorescence quantum yields, making them suitable for the development of optical sensors of compounds of interest. In particular, they are characterized by the tendency to aggregate into π-π stacked supramolecular structures. In this contribution, the behavior of the PBI derivative N, N'-bis(2-(trimethylammonium)ethylene)perylene bisimide dichloride was investigated both in aqueous solution and on solid support. The electronic communication between PBI aggregates and biogenic amines was exploited in order to discriminate aromatic amines down to subnanomolar concentrations by observing PBI fluorescence variations in the presence of various amines and at different concentrations. The experimental findings were corroborated by density functional theory calculations. In particular, phenylethylamine and tyramine were demonstrated to be selectively detected down to 10 -10 M concentration. Then, in order to develop a surface plasmon resonance (SPR) device, PBI was deposited onto a SPR support by means of the layer-by-layer method. PBI was deposited in the aggregated form and was demonstrated to preserve the capability to discriminate, selectively and with an outstanding analytical sensitivity, tyramine in the vapor phase and even if mixed with other aromatic amines.

Published

2019

239. Carbon nanodot-based heterostructures for improving the charge separation and the photocurrent generation.

Author

Bettini S, Sawalha S, Carbone L, Giancane G, Prato M, and Valli L

Abstract

The possibility to employ carbon nanodots (CNDs) in solar devices was exploited by combining them with a fulleropyrrolidine derivative (FP2). The interaction between the two species was promoted by the presence of opposite electrostatic charges on CNDs (negatively charged) and FP2 (positively charged). The supramolecular dyad CNDs/FP2 generation was induced at the air/water interface of a Langmuir trough: water soluble CNDs were dissolved in the subphase and FP2 chloroform solution was spread on the subphase; the electrostatic interaction promoted the formation of the supramolecular adduct FP2/CNDs, which was then transferred onto solid substrates. Photo-induced charge transfer was promoted in the FP2/CNDs dyad and we demonstrated that the presence of CNDs increased the short-circuit current density, under light illumination, of a porphyrin-FP2/CNDs thin film by about 300% when compared with a more traditional porphyrin-FP2 solar device.

Published

2019

240. The role of the central metal ion of ethane-bridged bis-porphyrins in histidine sensing.

Author

Bettini S, Pagano R, Borovkov V, Giancane G, and Valli L

Subjects

Coordination Complexes chemical synthesis, Ions chemistry, Molecular Structure, Particle Size, Surface Properties, Coordination Complexes chemistry, Copper chemistry, Ethane chemistry, Histidine analysis, Nickel chemistry, Porphyrins chemistry

Abstract

Ethane-bridged bis-porphyrin derivatives are reported for the selective detection of various analytes in sensing applications. The central metal ion is able to rule specific molecular arrangements upon analyte binding. Three bis-porphyrin compounds: a free base (metal free), Ni complex, and Cu complex, have been tested for histidine detection in aqueous media. Histidine is involved in various biological processes, including such deadly disease as lung cancer. The conformational changes of bis-porphyrins, induced by histidine binding, can be detected by monitoring the Soret band position. The spectroscopic characterization, at the air-water subphase interface, indicates that, in the presence of histidine, the Ni and Cu metallated derivatives undergo conformational changes. This behaviour was confirmed when these two derivatives were deposited onto the solid support by Langmuir-Schaefer (LS) technique. A prototypal Surface Plasmon Resonance (SPR) detection system for histidine based on these two porphyrin LS films was developed. The Cu substituted compound based SPR system allows the histidine sensing down to nanomolar concentration. Furthermore, a SPR response of the Ni bis-porphyrin shows a semilogarithmic dependence on the histidine concentration up to 10 -6  M proposing the use of these two porphyrins in a sensor array for the monitoring of histidine levels in plasma., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

241. Ethane-Bridged Bisporphyrin Conformational Changes As an Effective Analytical Tool for Nonenzymatic Detection of Urea in the Physiological Range.

Author

Buccolieri A, Hasan M, Bettini S, Bonfrate V, Salvatore L, Santino A, Borovkov V, and Giancane G

Subjects

Molecular Conformation, Organometallic Compounds chemical synthesis, Ethane chemistry, Organometallic Compounds chemistry, Porphyrins chemistry, Urea analysis

Abstract

Conformational switching induced in ethane-bridged bisporphyrins was used as a sensitive transduction method for revealing the presence of urea dissolved in water via nonenzymatic approach. Bisporphyrins were deposited on solid quartz slides by means of the spin-coating method. Molecular conformations of Zn and Ni monometalated bis-porphyrins were influenced by water solvated urea molecules and their fluorescence emission was modulated by the urea concentration. Absorption, fluorescence and Raman spectroscopies allowed the identification of supramolecular processes, which are responsible for host-guest interaction between the active layers and urea molecules. A high selectivity of the sensing mechanism was highlighted upon testing the spectroscopic responses of bis-porphyrin films to citrulline and glutamine used as interfering agents. Additionally, potential applicability was demonstrated by quantifying the urea concentration in real physiological samples proposing this new approach as a valuable alternative analytical procedure to the traditionally used enzymatic methods.

Published

2018

242. Colloidal solution of silver nanoparticles for label-free colorimetric sensing of ammonia in aqueous solutions.

Author

Buccolieri A, Serra A, Giancane G, and Manno D

Abstract

Silver nanoparticles were synthesized in the presence of saccharides and ammonia (NH 3 ) in the concentration range from 10 -2 to 10 3 ppm to develop an optical sensor for NH 3 in aqueous solutions. Ammonia affects the features of the nanoparticles obtained in a concentration-dependent manner as determined by UV-vis absorption analysis and TEM observations. Structural and morphological analysis provides the basis for the production of a colorimetric label-free sensor for ammonia. Overall, surface plasmon resonance increases when ammonia concentration rises, although the functional trend is not the same over the entire investigated ammonia concentration range. Three different ranges have been identified: very low ammonia concentrations from 0.01 to 0.2 ppm, high ammonia concentrations from 20 to 350 ppm and, most importantly, the intermediate or physiological range of ammonia from 0.5 to 10 ppm.

Published

2018

243. Enhanced electrical conductivity of collagen films through long-range aligned iron oxide nanoparticles.

Author

Bonfrate V, Manno D, Serra A, Salvatore L, Sannino A, Buccolieri A, Serra T, and Giancane G

Abstract

The development of biocompatible collagen substrates able to conduct electric current along specific pathways represent an appealing issue in tissue engineering, since it is well known that electrical stimuli significantly affects important cell behaviour, such as proliferation, differentiation, directional migration, and, therefore, tissue regeneration. In this work, a cheap and easy approach was proposed to produce collagen-based films exhibiting enhanced electrical conductivity, through the simple manipulation of a weak external magnetic trigger. Paramagnetic iron oxide nanoparticles (NPs) capped by a biocompatible polyethylene-glycol coating were synthetized by a co-precipitation and solvothermic method and sprayed onto a collagen suspension. The system was then subjected to a static external magnetic field in order to conveniently tune NPs organization. Under the action of the external stimulus, NPs were induced to orient along the magnetic field lines, forming long-range aligned micropatterns within the collagen matrix. Drying of the substrate following water evaporation permanently blocked the magnetic architecture produced, thereby preserving NPs organization even after magnetic field removal. Electrical conductivity measurements clearly showed that the presence of such a magnetic framework endowed collagen with marked conductive properties in specific directions. The biocompatibility of the paramagnetic collagen films was also demonstrated by MTT cell cytotoxicity test., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

244. Hierarchical Self-Assembly of Halogen-Bonded Block Copolymer Complexes into Upright Cylindrical Domains.

Author

Milani R, Houbenov N, Fernandez-Palacio F, Cavallo G, Luzio A, Haataja J, Giancane G, Saccone M, Priimagi A, Metrangolo P, and Ikkala O

Abstract

Self-assembly of block copolymers into well-defined, ordered arrangements of chemically distinct domains is a reliable strategy for preparing tailored nanostructures. Microphase separation results from the system, minimizing repulsive interactions between dissimilar blocks and maximizing attractive interactions between similar blocks. Supramolecular methods have also achieved this separation by introducing small-molecule additives binding specifically to one block by noncovalent interactions. Here, we use halogen bonding as a supramolecular tool that directs the hierarchical self-assembly of low-molecular-weight perfluorinated molecules and diblock copolymers. Microphase separation results in a lamellar-within-cylindrical arrangement and promotes upright cylindrical alignment in films upon rapid casting and without further annealing. Such cylindrical domains with internal lamellar self-assemblies can be cleaved by solvent treatment of bulk films, resulting in separated and segmented cylindrical micelles stabilized by halogen-bond-based supramolecular crosslinks. These features, alongside the reversible nature of halogen bonding, provide a robust modular approach for nanofabrication.

Published

2017

245. On-Demand Release of Hydrosoluble Drugs from a Paramagnetic Porous Collagen-Based Scaffold.

Author

Bettini S, Bonfrate V, Madaghiele M, Salvatore L, Syrgiannis Z, Giancane G, and Valli L

Subjects

Animals, Cell Survival drug effects, Drug Carriers chemistry, Ferrosoferric Oxide chemistry, Magnetic Fields, Mice, Microscopy, Electron, Transmission, Myoglobin metabolism, NIH 3T3 Cells, Nanostructures toxicity, Porosity, Spectrum Analysis, Raman, Thermogravimetry, Titanium chemistry, Collagen chemistry, Myoglobin chemistry, Nanostructures chemistry

Abstract

The design of a collagen scaffold containing iron oxide nanostructures capped by a TiO 2 (anatase) layer is reported. The TiO 2 shell is proposed to perform a dual role: 1) as an innovative and biocompatible cross-linker agent, providing binding sites to the protein moiety, through the well-known TiO 2 chemical affinity towards carboxyl groups, and 2) as a protective surface layer for the paramagnetic core against oxidation. Simultaneously, the presence of the nanostructures confers to the collagen gel sensitivity to an external stimulus; that is, the application of a magnetic field. The hybrid biomaterial was demonstrated to be nontoxic and is proposed as a smart scaffold for the release of bioactive compounds on demand. The tuneable release of a model protein (myoglobin) upon application of a magnetic field was investigated. Myoglobin was loaded in the microporous material and discharge was induced by consecutive magnet applications, leading to release of the protein with high spatio-temporal and dosage control., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

246. Synthesis and Characterization of Mixed Iron-Manganese Oxide Nanoparticles and Their Application for Efficient Nickel Ion Removal from Aqueous Samples.

Author

Buccolieri A, Serra A, Maruccio G, Monteduro AG, Padmanabhan SK, Licciulli A, Bonfrate V, Salvatore L, Manno D, Calcagnile L, and Giancane G

Abstract

Mixed iron-manganese oxide nanoparticles, synthesized by a simple procedure, were used to remove nickel ion from aqueous solutions. Nanostructures, prepared by using different weight percents of manganese, were characterized by transmission electron microscopy, selected area diffraction, X-ray diffraction, Raman spectroscopy, and vibrating sample magnetometry. Adsorption/desorption isotherm curves demonstrated that manganese inclusions enhance the specific surface area three times and the pores volume ten times. This feature was crucial to decontaminate both aqueous samples and food extracts from nickel ion. Efficient removal of Ni 2+ was highlighted by the well-known dimethylglyoxime test and by ICP-MS analysis and the possibility of regenerating the nanostructure was obtained by a washing treatment in disodium ethylenediaminetetraacetate solution.

Published

2017

247. Enhancement of Open Circuit Voltage of a ZnO-Based Dye-Sensitized Solar Cell by Means of Piezotronic Effect.

Author

Bettini S, Pagano R, Valli L, and Giancane G

Abstract

Two of the most known properties of ZnO were used to improve the performance of a dye-sensitized solar cell (DSSC) using a nanoadduct formed by zinc oxide and the well-known ruthenium dye N719. The wurtzite form of zinc oxide suffers from piezoelectricity and its energetic levels are very similar to those of the most used inorganic semiconductor employed in DSSCs, that is, TiO2 . We demonstrate that the synthesis of a ZnO@N719 nanoadduct does not affect the electronic communication between the inorganic semiconductor and the organic dye. The I-V characteristics in the dark and under illumination highlight a photoactivity of the ZnO@N719 active layer with values of Jsc , Voc and fill factor comparable to the data reported in the literature. When a mechanical strain is applied to the ZnO@N719 film, a piezopotential is recorded and it depends on the intensity of the applied pressure. According to the piezotronic effect, mechanical strain contributes to increase the open circuit voltage by about 14 %., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

248. Reconstituted oil bodies characterization at the air/water and at the air/oil/water interfaces.

Author

Bettini S, Santino A, Giancane G, and Valli L

Subjects

Microscopy methods, Air, Lipid Droplets chemistry, Oils chemistry, Water chemistry

Abstract

Oil bodies (OBs) are micelle-like structures with an outer phospholipid monolayer embedding some specific proteins (oleosins) and surrounding a hydrophobic core of triacylglycerols (TAGs). Oleosins are alkaline hairpin-like proteins that are anchored into the OBs structure with their hydrophilic domains covering the surface. We performed surface pressure (Π) and Brewster Angle Microscopy investigations of reconstituted OBs (ROBs) and of trypsin digested ROBs. The obtained Π vs time isotherms clearly show the formation of a surface layer. Upon ROBs suspension injection into the subphase, a clear-cut Π enhancement is recorded, followed by a long plateau region for ROBs suspensions more concentrated than 12.5μg/ml. The BAM analysis highlighted the presence of a dark background, ascribable to a 2D layer due to free components rearrangement and brilliant circular 3D domains, due to unaltered ROBs or small aggregates of ROBs. Increasing ROBs concentration, large domains appeared. We hypothesize that the presence of an excess of free TAGs in the 2D layer is crucial for the generation of such domains. We verified the generation of such typical structures, studying the behavior of a ROBs suspension (concentration of 12.5μg/ml) with two different approaches: after injection under a concentrated TAGs floating layers and after digestion with trypsin. These two procedures resulted in similar effects since proteinase digestion is like to induce the same morphology of a TAGs excess., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

249. State of art in porphyrin Langmuir-Blodgett films as chemical sensors.

Author

Giancane G and Valli L

Subjects

Electrochemical Techniques, Electrodes, Membranes, Artificial, Molecular Structure, Surface Properties, Porphyrins chemistry

Abstract

Porphyrins are tetrapyrrolic macrocycles with a fascinating and multifarious variegation of properties of essential significance in up-to-date and leading technologies. From a different point of view, the Langmuir-Blodgett technique allows the immobilisation of films with an accurate regulation of molecular organisation and thickness. As a logical upshot, this manuscript concerns a substantial object of consideration in contemporary research, the utilisation of Langmuir-Blodgett multilayers of porphyrins in sensing elements for the detection of analytes in different matrices. Investigations on the morphological, optical, structural and surface characteristics of these films are remarkably related to the significant properties of sensors with the ultimate goal of rationalising the innermost intercourses between the sensing behaviour and the peculiarities and molecular organisation brought about by the deposition method. The integration of the typical electrical and optical characteristics of porphyrins with the potentialities of the Langmuir-Blodgett multilayer has originated not only encouraging projects but has afforded also certainties on the accomplishment of operative chemical sensors., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

250. Photofunctional multilayer films by assembling naked silver nanoparticles and a tailored nitric oxide photodispenser at water/air interface.

Author

Vittorino E, Giancane G, Manno D, Serra A, Valli L, and Sortino S

Subjects

Microscopy, Atomic Force, Microscopy, Electron, Transmission, Nanostructures, Surface Properties, Air, Metal Nanoparticles chemistry, Nitric Oxide chemistry, Photochemistry, Silver chemistry, Water chemistry

Abstract

This contribution reports the design, preparation, and characterization of nanostructured hybrid films of silver nanoparticles (AgNPs) and a tailored nitric oxide (NO) photodonor. They were achieved by exploiting effective interfacial interactions between an amino-terminated NO photodonor spread onto water surface and naked AgNPs dissolved in the water subphase. The morphology, the spectroscopic features, and the interaction between the two components in the floating films at the air/water interface were inspected by Brewster Angle Microscopy, UV-Vis reflection, and polarization-modulation infrared reflection-absorption spectroscopy. AgNPs and the NO photodonor were successfully transferred onto hydrophobized quartz substrates by horizontal lifting deposition and the resulting multilayer films were characterized by UV-Vis absorption spectroscopy and transmission electron microscopy, respectively. The results obtained showed the presence of both isolated AgNPs and assemblies of AgNPs having nanodimensional character in the films. The photochemical properties of the NO photodonor were well preserved in the hybrid multilayers. In fact, they were able to release NO under visible light excitation, as unambiguously demonstrated by the direct and in real-time monitoring of this transient species using an ultrasensitive electrode, and the transfer of the released NO to a protein such as myoglobin., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2012