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3. Chimica (VII edizione)

Author

Bergamini, P., Botta, M., Brutti, S., Carcelli, M., De Guidi, G., Drava, G., Ennas, G., Fiore, T., Girasolo, M. A., Grasso, G., Lamastra, L., Leone, G., Magnani, A., Molinari, A., Monzani, E., Operti, L., Panzavolta, S., Pomelli, C. S., Punta, C., Ruffo, F., Tarallo, O., and Terreno, E.

Published
2021

4. Lightweight geopolymer-based hybrid materials

Author

Roviello G, Menna C, Tarallo O, Ricciotti L, Messina F, Ferone C, Asprone D, Cioffi R, Roviello, G, Menna, C, Tarallo, O, Ricciotti, L, Messina, F, Ferone, C, Asprone, D, and Cioffi, R

Published
2017

7. Chimica

Author

Battistuzzi, G., Bergamini, P., Botta, M., Carbonaro, L., Carcelli, M., De Guidi, G., Donzello, M. P., Drava, G., Ennas, G., Favero, L., Fiore, T., Girasolo, M. A., Iannelli, P., Lamastra, L., Leone, G., Magnani, A, Martinelli, A., Monzani, E., Operti, L., Panzavolta, S., Ruffo, F., Tarallo, O., and Terreno, E.

Published
2017

10. An Intercalate Molecular Complex of Syndiotactic Polystyrene

Author

Petraccone, V., Tarallo, O., Venditto, V., and Guerra, G.

Abstract

The crystal structure of the molecular complex of syndiotactic polystyrene (s-PS) with bicyclo[2.2.1]hepta-2,5-diene (norbornadiene, NB) is presented. In analogy to the already described s-PS molecular complexes, this structure presents a monoclinic unit cell (cell constants a = 17.5 Å, b = 14.5 Å, c = 7.8 Å, and γ = 107.8°) in which the s(2/1)2 polymer helices and guest molecules are packed according to the space group P21/a. However, the structure of the s-PS/NB complex presents layers of contiguous guest molecules alternated with layers of enantiomorphous polymer helices and hence can be described as an intercalate phase. On the other hand, all the known structures of other s-PS molecular complexes present isolated molecules (or a couple of small molecules) into the cavities typical of the nanoporous s-PS δ form and hence can be described as clathrate phases. The molar ratio between the monomeric unit and the guest is 2/1 for the s-PS/NB intercalate phase, while it is generally 4/1 for the s-PS clathrate phases.

Published
2005

11. A New Clathrate Class of Syndiotactic Poly(p-methylstyrene) with a Different Chain Conformation

Author

Petraccone, V., Esposito, G., Tarallo, O., and Caporaso, L.

Abstract

A new crystalline clathrate class of syndiotactic poly(p-methylstyrene) has been found through thermal and WAXS analyses. In these clathrate forms, the polymer chains assume a T6G2T2G2 conformation with a repetition period of 11.7 ± 0.1 Å and t2 symmetry. The new conformation, supported by molecular mechanics calculations, presents a cavity, favorable to the formation of clathrate structure, only on one side of the polymer chain. This cavity is bigger than those presented by this polymer with a helical s(2/1)2 chain conformation found for all the other clathrates. After annealing, the clathrates of this new class are transformed in form II. For this new class of clathrates the term γ is proposed.

Published
2005

12. Comparison between Polymorphic Behaviors of Ziegler−Natta and Metallocene-Made Isotactic Polypropylene:  The Role of the Distribution of Defects in the Polymer Chains

Author

Rosa, C. De, Auriemma, F., Spera, C., Talarico, G., and Tarallo, O.

Abstract

A comparative analysis of the polymorphic behavior of samples of isotactic polypropylene (iPP) prepared with heterogeneous Ziegler−Natta catalysts and with a single-center homogeneous metallocene catalyst is presented. Different samples of Ziegler−Natta iPP, prepared with MgCl2-supported catalysts modified by adding different Lewis bases, have been fractionated by extraction with boiling solvents. The irregular fraction, insoluble in diethyl ether and soluble in hexane, crystallizes from the melt almost totally in the γ form. The more stereoregular fractions crystallize instead basically in the α form. This confirms that, even in the case of Ziegler−Natta iPP samples, the γ form may develop by melt-crystallization at atmospheric pressure in fractions containing a high concentration of defects. The relative amount of γ form crystallized from the melt is, however, much lower that that observed in samples of metallocene-made iPP containing comparable amount of defects. Since the γ form crystallizes in chains having short regular isotactic sequences, these data indicate that in Ziegler−Natta iPP samples the regular isotactic sequences are longer than those present in chains of metallocene-made iPP having a similar overall concentration of defects. The different polymorphic behavior of metallocene and Ziegler−Natta iPP samples is related to the different distribution of defects in the polymeric chains, generated by the different kinds of catalytic systems. While in the metallocene-made iPP the distribution of defects along the chains is random, in Ziegler−Natta iPP samples the majority of the defects are segregated in a small fraction of poorly crystallizable macromolecules or in more irregular portions of the chain, so that much longer fully isotactic sequences can be produced, leading to the crystallization of the α form, even for a relatively high overall concentration of defects. These results confirm the idea that the structural analysis of iPP, in particular the crystallization of the γ form, may give information about the microstructure of the polymer chains. The measure of the maximum amount of γ form crystallized from the melt may be used as an indirect method to evaluate the average length of isotactic sequences. This analysis allows concluding that some fractions of Ziegler−Natta iPP are characterized by chains with a stereoblock microstructure, consisting of regular isotactic sequences linked to more irregular sequences. The latter contain the major part of stereodefects mainly consisting in isolated rr triads, r diads, and longer ...rrrr... syndiotatic sequences. The hypothesis of a stereoblock microstructure for some of these less stereoirregular fractions is also consistent with the high degree of crystallinity observed in the samples crystallized from solution or from the melt, despite the high concentration of defects.

Published
2004

13. Crystal Structure of the Clathrate Form of Syndiotactic Poly(m-methylstyrene) Containing Carbon Disulfide

Author

Petraccone, V., Tarallo, O., and Califano, V.

Abstract

The crystal structure of the clathrate form of syndiotactic poly(m-methylstyrene) containing carbon disulfide is presented. The structure is characterized by polymer chains in s(2/1)2 helical conformation and CS2 molecules packed in an orthorhombic unit cell with axes a = 17.8 Å, b = 13.1 Å, and c = 7.8 Å, according to the space group Pcaa. The calculated crystalline density is 1.14 g/cm3 for two polymer chains (eight monomer units) and four carbon disulfide molecules included in the unit cell. As in the packing model proposed for the crystal structures of the β class of the syndiotactic poly(p-methylstyrene) clathrates, the guest molecules occupy cavities delimited by isomorphous helices along the b axis and are related by the crystallographic 2-fold screw axis of the unit cell. The packing of the helices along the a axis, instead, is similar to the close packing realized by the chains only in the clathrates and in the δ form of syndiotactic polystyrene.

Published
2003

14. Sustainable Materials Based on Geopolymer–Polyvinyl Acetate Composites for Art and Design Applications

Author

Laura Ricciotti, Alessio Occhicone, Stefania Manzi, Andrea Saccani, Claudio Ferone, Oreste Tarallo, Giuseppina Roviello, Ricciotti L., Occhicone A., Manzi S., Saccani A., Ferone C., Tarallo O., Roviello G., Ricciotti, L., Occhicone, A., Manzi, S., Saccani, A., Ferone, C., Tarallo, O., Roviello, G., Ricciotti, Laura, Occhicone, Alessio, Manzi, Stefania, Saccani, Andrea, Ferone, Claudio, Tarallo, Oreste, and Roviello, Giuseppina

Subjects
Polymers and Plastics, PVAc, art and design, geopolymer, composites, green materials, cultural heritage, green material, composite, General Chemistry
Abstract

The recent introduction of the Next Generation EU packages on the circular economy and the Italian Ecological Transition Plan has further boosted the research of effective routes to design materials with low energy and low environmental impact, in all areas of research, including art and design and cultural heritage. In this work, we describe for the first time the preparation and characterization of a new sustainable adhesive material to be used in the art and design sector, consisting of a geopolymer-based composite with polyvinyl acetate (PVAc), both considered more environmentally acceptable than the analogous inorganic or polymeric materials currently used in this sector. The key idea has been the development of organic–inorganic composites by reacting low molecular weight polymers with the geopolymer precursor to obtain a material with reduced brittleness and enhanced adhesion with common substrates. Structural, morphological, and mechanical studies pointed out the consistent microstructure of the composite materials if compared to the neat geopolymer, showing lower density (up to 15%), improved flexural strength (up to 30%), similar water absorption and a relevant toughening effect (up to 40%). Moreover, the easy pourability in complex shapes and the excellent adhesion of these materials to common substrates suggest their use as materials for restoration, rehabilitation of monuments, and decorative and architectural intervention. The organic–inorganic nature of these new materials also makes them easily recognizable from the support on which they are used, favoring, in line with the dictates of good restoration practices, their possible complete removal. For all these reasons, these new materials could represent promising candidates to overcome the limits related to the creative industry for what concerns the selection of environmentally friendly materials to meet design requirements with low environmental impacts.

Published
2022
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15. Hybrid Fly Ash-based Geopolymeric Foams: Microstructural, Thermal and Mechanical Properties

Author

Antonio Jacopo Molino, Laura Ricciotti, Giuseppina Roviello, Oreste Tarallo, Domenico Asprone, Constantino Menna, Claudio Ferone, Raffaele Cioffi, Pietro Russo, Veronica Ferrandiz-Mas, Roviello, G., Ricciotti, L., Molino, A. J., Menna, C., Ferone, C., Asprone, D., Cioffi, R., Ferrandiz-Mas, V., Russo, P., Tarallo, O., Roviello, G, Ricciotti, L, Molino, A J, Menna, C, Ferone, C, Asprone, D, Cioffi, R, Ferrandiz-Mas, V, Russo, P, and Tarallo, O

Subjects
microtomography, Materials science, 02 engineering and technology, mechanical properties, 010402 general chemistry, 01 natural sciences, lcsh:Technology, Article, chemistry.chemical_compound, Thermal conductivity, polysiloxanes, Thermal insulation, Blowing agent, General Materials Science, lightweight material, Composite material, lcsh:Microscopy, Lightweigth material, geopolymer, lcsh:QC120-168.85, hybrid foams, Fly ash, Geopolymer, Hybrid foams, Lightweight material, Mechanical properties, Microtomography, Polysiloxanes, lcsh:QH201-278.5, business.industry, lcsh:T, Polysiloxane, SDG 8 - Decent Work and Economic Growth, 021001 nanoscience & nanotechnology, Hybrid foam, Silicate, 0104 chemical sciences, Characterization (materials science), Compressive strength, fly ash, chemistry, lcsh:TA1-2040, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, SDG 12 - Responsible Consumption and Production, 0210 nano-technology, business, lcsh:Engineering (General). Civil engineering (General), Mechanical propertie, lcsh:TK1-9971
Abstract

This research investigates the preparation and characterization of new organic&ndash, inorganic geopolymeric foams obtained by simultaneously reacting coal fly ash and an alkali silicate solution with polysiloxane oligomers. Foaming was realized in situ using Si0 as a blowing agent. Samples with density ranging from 0.3 to 0.7 g/cm3 that show good mechanical properties (with compressive strength up to &asymp, 5 MPa for a density of 0.7 g/cm3) along with thermal performances (&lambda, = 0.145 &plusmn, 0.001 W/m&middot, K for the foamed sample with density 0.330 g/cm3) comparable to commercial lightweight materials used in the field of thermal insulation were prepared. Since these foams were obtained by valorizing waste byproducts, they could be considered as low environmental impact materials and, hence, with promising perspectives towards the circular economy.

Published
2020
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16. Development and validation of an instrument to measure students’ engagement and participation in science activities through factor analysis and Rasch analysis

Author

Italo Testa, Giovanni Costanzo, Marianna Crispino, Silvia Galano, Alessio Parlati, Oreste Tarallo, Francesca Tricò, Umberto Scotti di Uccio, Testa, I., Costanzo, G., Crispino, M., Galano, S., Parlati, A., Tarallo, O., Trico, F., and Scotti di Uccio, U.

Subjects
Engagement, out-of-school activitie, Rasch analysis, confirmatory factor analysi, Education
Abstract

In this study, we present a new instrument, the Participation and Engagement Scale (PES), for the evaluation of the students��� involvement in STEM-oriented activities. The instrument was administered to about 1000 secondary school students who participated in the activities of the Italian Piano Nazionale Lauree Scientifiche in Biology, Chemistry and Physics. The activities were carried out in a remote modality due to the COVID-19 restrictions. Through an exploratory and confirmatory factor analysis, it was possible to validate a two-factor structure of the instrument: satisfaction towards the activities and value of the activities. The proposed factor structure shows a good model fit, with each of the obtained scales displaying excellent reliability. Construct-related validation evidence was obtained through the Rasch analysis, which allowed further psychometric improvement of the instrument. Convergent validation evidence was established through a correlation with the academic motivation and perceived difficulties scales. Using the proposed instrument, we found no statistically significant relationships between engagement, the different types of science activities attended, and the intention to enrol in a STEM course. Implications of the study for the evaluation of public understanding of science activities in both remote and in-presence modalities are also discussed.

Published
2021
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17. Homogeneous Catalysis and Heterogeneous Recycling: A Simple Zn(II) Catalyst for Green Fatty Acid Esterification

Author

Martino Di Serio, Roberto Esposito, Massimo Melchiorre, Oreste Tarallo, Maria Elena Cucciolito, Francesco Ruffo, Marco Trifuoggi, Melchiorre, M., Cucciolito, M. E., Di Serio, M., Ruffo, F., Tarallo, O., Trifuoggi, M., and Esposito, R.

Subjects
esterification, General Chemical Engineering, chemistry.chemical_element, Homogeneous catalysis, catalysi, 02 engineering and technology, Zinc, 010402 general chemistry, Heterogeneous catalysis, fatty acids, 01 natural sciences, Catalysis, Perchlorate, chemistry.chemical_compound, Environmental Chemistry, Organic chemistry, Carboxylate, chemistry.chemical_classification, catalysis, zinc(II), Renewable Energy, Sustainability and the Environment, General Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, catalyst recycle, fatty acid, Counterion, 0210 nano-technology, Trifluoromethanesulfonate, Research Article
Abstract

This work describes the use of simple zinc(II) salts (ZnCl2, ZnCO3, Zn(OAc)2, ZnO, Zn(ClO4)2, Zn(TfO)2, and Zn(BF4)2) as effective catalysts for the esterification of fatty acids with long-chain alcohols and simple polyols through a homogeneous system that allows the gradual and selective removal of water. The results show that the catalytic activity depends on the nature of the counterion: the most effective are the salts with poorly coordinating anions (perchlorate and triflate) or containing basic Brønsted anions (oxide, acetate, and carbonate). However, only with the latter is it possible to fully recover the catalyst at the end of each run, which is easily filtered in the form of zinc carboxylate, given its insolubility in the ester produced. In this way, it is possible to recycle the catalyst numerous times, without any loss of activity. This beneficial prerogative couples the efficiency of the homogeneous catalysis with the advantage of the heterogeneous catalysis. The process is, therefore, truly sustainable, given its high efficiency, low energy consumption, ease of purification, and the absence of auxiliary substances and byproducts., Simple zinc(II) salts are effective and recyclable catalysts for the solvent-free esterification of fatty acids with medium−long-chain alcohols.

Published
2021
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18. Intrahelical empty channels of nanoporous-crystalline α and β forms of PPO

Author

Manohar Golla, Baku Nagendra, Christophe Daniel, Paola Rizzo, Finizia Auriemma, Oreste Tarallo, Gaetano Guerra, Golla, M., Nagendra, B., Daniel, C., Rizzo, P., Auriemma, F., Tarallo, O., and Guerra, G.

Subjects
Polymers and Plastics, Axially oriented amorphous and crystalline phases, Organic Chemistry, Materials Chemistry, General Physics and Astronomy, Intrahelical guest placement, Film birefringence, Infrared linear dichroism, Axially oriented amorphous and crystalline phasesInfrared linear dichroismFilm birefringenceIntrahelical guest placement
Abstract

A linear dichroism study of vibrational peaks of amorphous and semi-crystalline axially stretched poly(2,6-dimethyl-1,4-phenylene)oxide (PPO) films shows an unusual behaviour of co-crystalline and nanoporous-crystalline (α and β form) phases. In fact, signs of dichroism for all vibrational peaks of α and β phases are opposite with respect to those observed for amorphous phases. This behaviour indicates the occurrence in PPO α and β forms of large polymer helices, whose thermodynamic stability can be rationalized by placement of guest molecules in intrahelical channels. A large diameter helix, with chain periodicity of 1.06 nm, is compatible with layer-line position in WAXD patterns of axially stretched α form films. The occurrence for both α and β NC forms of PPO of intrahelical empty channels, can rationalize the very high guest diffusivity of semi-crystalline PPO films, which becomes particularly high when crystalline helical axes are preferentially perpendicular to the film plane.

Published
2022

19. Development of Geopolymer-Based Materials with Ceramic Waste for Artistic and Restoration Applications

Author

Laura Ricciotti, Alessio Occhicone, Claudio Ferone, Raffaele Cioffi, Oreste Tarallo, Giuseppina Roviello, Ricciotti, Laura, Occhicone, Alessio, Ferone, Claudio, Cioffi, Raffaele, Tarallo, Oreste, Roviello, Giuseppina, Ricciotti, L., Occhicone, A., Ferone, C., Cioffi, R., Tarallo, O., and Roviello, G.

Subjects
ceramic wastes, geopolymer, mortars, art and design, recycling, mortar, General Materials Science, ceramic waste
Abstract

This contribution presents the preparation and characterization of new geopolymer-based mortars obtained from recycling waste deriving from the production process and the “end-of-life” of porcelain stoneware products. Structural, morphological, and mechanical studies carried out on different kinds of mortars prepared by using several types of by-products (i.e., pressed burnt and extruded ceramic waste, raw pressed and gypsum resulting from exhausted moulds) point out that these systems can be easily cast, also in complex shapes, and show a more consistent microstructure with respect to the geopolymer paste, with a reduced amount of microcracks. Moreover, the excellent adhesion of these materials to common substrates such as pottery and earthenware, even for an elevated concentration of filler, suggests their use in the field of technical-artistic value-added applications, such as restoration, conservation, and/or rehabilitation of historic monuments, or simply as materials for building revetments. For all these reasons, the proposed materials could represent valuable candidates to try to overcome some problems experienced in the cultural heritage sector concerning the selection of environmentally friendly materials that simultaneously meet art and design technical requirements.

Published
2022
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20. Two Nanoporous Crystalline Forms of Poly(2,6-dimethyl-1,4-phenylene)oxide and Related Co-Crystalline Forms

Author

Finizia Auriemma, Paola Rizzo, Gaetano Guerra, Christophe Daniel, Claudio De Rosa, Baku Nagendra, Anna Nuzzo, Oreste Tarallo, Antonietta Cozzolino, Massimo Christian D'Alterio, Nagendra, B., Cozzolino, A., Daniel, C., Rizzo, P., Guerra, G., Auriemma, F., De Rosa, C., D'Alterio, M. C., Tarallo, O., and Nuzzo, A.

Subjects
Diffraction, Materials science, Polymers and Plastics, Nanoporous, Infrared, Organic Chemistry, Oxide, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Inorganic Chemistry, Crystallography, chemistry.chemical_compound, symbols.namesake, Fourier transform, chemistry, Phenylene, Materials Chemistry, symbols, Fourier transform infrared spectroscopy, 0210 nano-technology
Abstract

Extensive characterizations, mainly by wide-angle X-ray diffraction (WAXD) and Fourier transform infrared (FTIR) techniques, are reported for co-crystalline (CC) poly(2,6-dimethyl-1,4-phenylene)oxide (PPO) films with many different low-molecular-mass guest molecules. These characterizations are also reported for the corresponding nanoporous crystalline (NC) phases, as obtained by suitable guest-removal procedures. Two well-separated NC forms, hereafter named α and β, are obtained by guest removal from two well-separated groups of CC forms. α and β NC forms can be easily recognized by reflections in WAXD patterns as well as by suitable FTIR crystalline peaks. Density and degree of crystallinity measurements confirm that both NC phases exhibit a density definitely smaller than for the amorphous phase (ρam = 1.04 g/cm3 > ρβ = 0.95 g/cm3 > ρα = 0.93 g/cm3). Density functional theory calculations combined with geometrical analysis on PPO model systems indicate conformations suitable to fit the observed chain periodicities of the two crystalline forms (c = 5.28 and 5.47 Å, for α and β NC forms, respectively).

Published
2019
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21. Polymorphism of poly(2,6-dimethyl-1,4-phenylene) oxide (PPO): Co-crystalline and nanoporous-crystalline phases

Author

Finizia Auriemma, Christophe Daniel, Manohar Golla, Baku Nagendra, Paola Rizzo, Oreste Tarallo, Gaetano Guerra, Auriemma, F., Daniel, C., Golla, M., Nagendra, B., Rizzo, P., Tarallo, O., and Guerra, G.

Subjects
Axial orientation, Polymers and Plastics, Organic Chemistry, Aerogels, Crystalline empty channels, High-surface-area films, Host-guest co-crystalline forms, Planar orientations, Crystalline empty channelsAxial orientationPlanar orientationsHost-guest co-crystalline formsAerogelsHigh-surface-area films, Materials Chemistry
Abstract

Relevant information on PPO crystallization, with particular emphasis on nanoporous crystalline (NC) and related co-crystalline (CC) forms, is reviewed. Preparation methods, structures, properties and possible applications of NC and CC samples are discussed. Reviewed results mainly refer to films (unoriented or with axial or planar orientations) but also to NC powders and NC aerogels. Particular attention is given to the impressive solubility and diffusivity of organic guests, which can be achieved for NC PPO samples. X-ray diffraction patterns and infrared linear dichroism, as collected for axially oriented NC films, indicate the presence of large diameter crystalline helices with intrahelical location of the guest molecules. The final section is mainly devoted to perspectives of basic and industrial research that are expected in the near future for CC and NC PPO samples. As for research studies, particularly suitable appear NC films with orientation of the crystalline empty channels perpendicular to the film plane (c⊥ orientation), mainly due to their fast guest sorption and good optical transparency.

Published
2022
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22. Coral-like plasmonic probes for tip-enhanced Raman spectroscopy

Author

Antonio Sasso, Oreste Tarallo, Angela Capaccio, Giulia Rusciano, Capaccio, A., Sasso, A., Tarallo, O., and Rusciano, G.

Subjects
Spinodal, Fabrication, Materials science, business.industry, Plasma, symbols.namesake, symbols, Optoelectronics, General Materials Science, Texture (crystalline), Dewetting, business, Raman spectroscopy, Excitation, Plasmon
Abstract

Tip-enhanced Raman spectroscopy is a powerful tool for the analysis of system interfaces, enabling access to chemical information with nanometric spatial resolution and sensitivity up to the single molecule level. Such features are due to the presence of proper metallic nanostructures at the TERS probe apex, which, via the excitation of a plasmonic field, confine light to a nanometric region. The nano-sized characteristic of such metallic structures intrinsically renders the fabrication of high performing and reproducible TERS probes still a challenge. In this paper, we present a facile, rapid and effective approach to prepare Ag-based TERS probes. The fabrication process proposed herein is based on spinodal dewetting of Ag-coated AFM-probes through a RF plasma treatment. The obtained probes appear covered with a coral-like silver nanotexture, endowed with an excellent plasmonic activity. Intriguingly, such a texture can be easily tuned by changing some process parameters, such as Ag film thickness and exposure time to the plasma. The as-prepared TERS probes show a high TERS enhancement, reaching 107, and allow a good spatial resolution, down to 10 nm. Finally, we suggest an easy and effective procedure to restore oxidized TERS tips following exposure to ambient air, which can be applied to all types of Ag-based TERS tips.

Published
2020

23. Nanocomposites of Au/Disentangled UHMWPE: A Combined Optical and Structural Study

Author

Sara Ronca, Linlin Guan, Ignacio Martín-Fabiani, Stavros X. Drakopoulos, Oreste Tarallo, Drakopoulos, S. X., Tarallo, O., Guan, L., Martin-Fabiani, I., and Ronca, S.

Subjects
ultra-high molecular weight polyethylene, optical absorption, Materials science, Polymer nanocomposite, Pharmaceutical Science, Metal Nanoparticles, Article, orientation, Analytical Chemistry, Nanocomposites, lcsh:QD241-441, symbols.namesake, Crystallinity, polymer nanocomposites, lcsh:Organic chemistry, Drug Discovery, structural analysis, Physical and Theoretical Chemistry, Composite material, chemistry.chemical_classification, Polarized light microscopy, Scattering, Au nanoparticle, Spectrum Analysis, Structural analysi, Organic Chemistry, Polymer, X-ray scattering, Amorphous solid, chemistry, Chemistry (miscellaneous), Colloidal gold, symbols, Molecular Medicine, Gold, Polyethylenes, Raman spectroscopy, Au nanoparticles
Abstract

The term disentangled refers to polymers with fewer entanglements in the amorphous regions, a metastable condition that can significantly affect the material&rsquo, s properties and processing behavior. The lower entanglement density in ultra-high molecular weight polyethylene (dis-UHMWPE) facilitates the solid-state processability into uniaxially-oriented specimens reaching very high draw ratios and crystallinities. In this study, Au/dis-UHMWPE nanocomposites were formulated and processed at variable draw ratios. Polarized light microscopy suggests gold nanoparticles are oriented in arrays following the drawing of polymer chains. The structural features, upon orientation, are studied by means of Raman spectroscopy, wide- and small-angle X-ray scattering, and near-infrared spectrophotometry. Crystallinity is found to increase by 15%, as calculated by wide-angle X-ray scattering. The change in optical absorbance in the visible spectrum indicates that, with orientation, the average size of gold aggregates increases, supported quantitatively by small-angle X-ray scattering. Since the gold nanoparticles are expected to be found within amorphous chain segments, the aforementioned findings are attributed to the increase of crystallinity and thus the decrease of available (amorphous) space.

Published
2020

24. Synthesis and characterization of novel epoxy geopolymer hybrid composites

Author

Francesco Colangelo, Laura Ricciotti, Claudio Ferone, Raffaele Cioffi, Giuseppina Roviello, Oreste Tarallo, Roviello, G, Ricciotti, L, Ferone, C, Colangelo, F, Cioffi, R, Tarallo, O, G., Roviello, L., Ricciotti, C., Ferone, F., Colangelo, R., Cioffi, and Tarallo, Oreste

Subjects
metakaolin, Toughness, Materials science, lcsh:Technology, Article, epoxy resin, law.invention, law, General Materials Science, geopolymer, hybrid composites, Composite material, lcsh:Microscopy, Metakaolin, Filtration, lcsh:QC120-168.85, lcsh:QH201-278.5, lcsh:T, Epoxy, Characterization (materials science), Geopolymer, lcsh:TA1-2040, visual_art, visual_art.visual_art_medium, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:Engineering (General). Civil engineering (General), Dispersion (chemistry), Porous medium, lcsh:TK1-9971
Abstract

The preparation and the characterization of novel geopolymer-based hybrid composites are reported. These materials have been prepared through an innovative synthetic approach, based on a co-reticulation in mild conditions of commercial epoxy based organic resins and a metakaolin-based geopolymer inorganic matrix. This synthetic strategy allows the obtainment of a homogeneous dispersion of the organic particles in the inorganic matrix, up to 25% in weight of the resin. The materials obtained present significantly enhanced compressive strengths and toughness with respect to the neat geopolymer, suggesting their wide utilization for structural applications. A preliminary characterization of the porous materials obtained by removing the organic phase from the hybrid composites by means of heat treatments is also reported. Possible applications of these materials in the field of water purification, filtration, or as lightweight insulating materials are envisaged.

Published
2013

25. Synthesis and characterizations of melamine-based epoxy resins

Author

Fabio Borbone, Claudio Ferone, Laura Ricciotti, Giuseppina Roviello, Oreste Tarallo, Francesco Colangelo, Michelina Catauro, Raffaele Cioffi, Ricciotti, Laura, Roviello, Giuseppina, Tarallo, Oreste, Borbone, Fabio, Ferone, Claudio, Colangelo, Francesco, Catauro, Michelina, Cioffi, Raffaele, L., Ricciotti, G., Roviello, C., Ferone, F., Colangelo, M., Catauro, R., Cioff, Ricciotti, L, Roviello, G, Tarallo, O, Borbone, F, Ferone, C, Colangelo, F, and Cioffi, R.

Subjects
Materials science, synthesis, Thermosetting polymer, Epoxy Resins, Triazines, DMA, crosslinking reaction, Catalysis, Article, epoxy resin, DSC, Inorganic Chemistry, lcsh:Chemistry, chemistry.chemical_compound, glycidyl derivative, melamine, Organic chemistry, Thermal stability, glass transition, Physical and Theoretical Chemistry, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, Curing (chemistry), Synthetic resin, Organic Chemistry, General Medicine, Dynamic mechanical analysis, Epoxy, Silane, Computer Science Applications, IR, chemistry, Chemical engineering, lcsh:Biology (General), lcsh:QD1-999, visual_art, visual_art.visual_art_medium, Melamine
Abstract

A new, easy and cost-effective synthetic procedure for the preparation of thermosetting melamine-based epoxy resins is reported. By this innovative synthetic method, different kinds of resins can be obtained just by mixing the reagents in the presence of a catalyst without solvent and with mild curing conditions. Two types of resins were synthesized using melamine and a glycidyl derivative (resins I) or by adding a silane derivative (resin II). The resins were characterized by means of chemical-physical and thermal techniques. Experimental results show that all the prepared resins have a good thermal stability, but differ for their mechanical properties: resin I exhibits remarkable stiffness with a storage modulus value up to 830 MPa at room temperature, while lower storage moduli were found for resin II, indicating that the presence of silane groups could enhance the flexibility of these materials. The resins show a pot life higher than 30 min, which makes these resins good candidates for practical applications. The functionalization with silane terminations can be exploited in the formulation of hybrid organic-inorganic composite materials A new, easy and cost-effective synthetic procedure for the preparation of thermosetting melamine-based epoxy resins is reported. By this innovative synthetic method, different kinds of resins can be obtained just by mixing the reagents in the presence of a catalyst without solvent and with mild curing conditions. Two types of resins were synthesized using melamine and a glycidyl derivative (resins I) or by adding a silane derivative (resin II). The resins were characterized by means of chemical-physical and thermal techniques. Experimental results show that all the prepared resins have a good thermal stability, but differ for their mechanical properties: resin I exhibits remarkable stiffness with a storage modulus value up to 830 MPa at room temperature, while lower storage moduli were found for resin II, indicating that the presence of silane groups could enhance the flexibility of these materials. The resins show a pot life higher than 30 min, which makes these resins good candidates for practical applications. The functionalization with silane terminations can be exploited in the formulation of hybrid organic-inorganic composite materials.

Published
2013

26. Hydrocolloid-based bioplastics: Degradation in characterized soils.

Author

Famiglietti M, Mirpoor SF, Caporale AG, Cappelli C, Tarallo O, and Mariniello L

Subjects
Colloids chemistry, Amylose chemistry, Plastics chemistry, Hydrogen-Ion Concentration, Soil chemistry
Abstract

Three different type of bioplastics were studied. They were made of amylose only, argan proteins only, while the third type contained both polymers at a 1:1 ratio. Their degradation was studied in three different type of soils fully characterized regarding their composition. The rate of degradation was similar for the three type of bioplastics, even though some differences can be observed in relation to the type of soil. Amylose only-based bioplastics are degraded at the same rate in all three different oils, while the Argan-based bioplastics and Amylose-Argan proteins- based one are more resistant to degradation in the calcareous flood soil with a sandy clay loam texture and alkaline pH, namely soil B from the agricultural area of Castel Volturno (Naples, Italy). The soil fertility was also assessed by cultivating garden cress in the soils where the novel bioplastics were left to degrade. Results were compared with a commercial bioplastic, showing a rate of degradation faster than the commercial one. Thus, novel bioplastics can be defined as compostable since obey the definition described by the European label EN 13432., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2025
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27. Geopolymer-Based Materials for the Removal of Ibuprofen: A Preliminary Study.

Author

Paparo R, Di Serio M, Roviello G, Ferone C, Trifuoggi M, Russo V, and Tarallo O

Subjects
Adsorption, Polymers chemistry, Anti-Inflammatory Agents, Non-Steroidal chemistry, Anti-Inflammatory Agents, Non-Steroidal isolation & purification, Wastewater chemistry, Kaolin chemistry, Ibuprofen chemistry, Ibuprofen isolation & purification, Water Pollutants, Chemical isolation & purification, Water Pollutants, Chemical chemistry, Water Purification methods
Abstract

Every year, new compounds contained in consumer products, such as detergents, paints, products for personal hygiene, and drugs for human and veterinary use, are identified in wastewater and are added to the list of molecules that need monitoring. These compounds are indicated with the term emerging contaminants (or Contaminants of Emerging Concern, CECs) since they are potentially dangerous for the environment and human health. To date, among the most widely used methodologies for the removal of CECs from the aquatic environment, adsorption processes play a role of primary importance, as they have proven to be characterized by high removal efficiency, low operating and management costs, and an absence of undesirable by-products. In this paper, the adsorption of ibuprofen (IBU), a nonsteroidal anti-inflammatory drug widely used for treating inflammation or pain, was performed for the first time using two different types of geopolymer-based materials, i.e., a metakaolin-based (GMK) and an organic-inorganic hybrid (GMK-S) geopolymer. The proposed adsorbing matrices are characterized by a low environmental footprint and have been easily obtained as powders or as highly porous filters by direct foaming operated directly into the adsorption column. Preliminary results demonstrated that these materials can be effectively used for the removal of ibuprofen from contaminated water (showing a concentration decrease of IBU up to about 29% in batch, while an IBU removal percentage of about 90% has been reached in continuous), thus suggesting their potential practical application.

Published
2024
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28. Measurement of gravitational and thermal effects in a liquid-actuated torsion pendulum.

Author

Allocca A, Bassan M, De Laurentis M, De Rosa R, Di Fiore L, D'Onofrio L, Errico L, Garufi F, Grado A, Hoyle CD, Lucchesi D, Minenkov Y, Passeggio G, Pucacco G, Sequino V, Tarallo O, Trozzo L, and Visco M

Abstract

We describe a proof-of-principle experiment aiming to investigate the inverse-square law of gravitation at the centimeter scale. The sensor is a two-stage torsion pendulum, while actuation is accomplished by a variable liquid mass. The time-varying gravitational force is related to the level of the circulating fluid in one or two containers at a short distance from the test mass, with all moving mechanical parts positioned at a large distance. We provide a description of the apparatus and present the first results. We identified a systematic effect of thermal origin, producing offsets of few fNm in torque and of about 10 pN in force. When this effect is neutralized, the measurements agree well with the predictions of simulations. We also discuss the upcoming instrument upgradations and the expected sensitivity improvement that will allow us to perform measurements with adequate accuracy to investigate the unexplored regions of the α-λ parameter space of a Yukawa-like deviation from the Newtonian potential., (© 2023 Author(s). Published under an exclusive license by AIP Publishing.)

Published
2023
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29. Evidence of Small Fungal Cysteine-Rich Proteins Acting as Biosurfactants and Self-Assembling into Large Fibers.

Author

Pitocchi R, Stanzione I, Illiano A, Amoresano A, Tarallo O, Cicatiello P, Piscitelli A, and Giardina P

Subjects
Fungal Proteins, Membrane Proteins, Salinity, Cysteine, Pleurotus
Abstract

Fungi produce surface-active proteins, among which hydrophobins are the most characterized and attractive also for their ability to form functional amyloids. Our most recent findings show that these abilities are shared with other classes of fungal proteins. Indeed, in this paper, we compared the characteristics of a class I hydrophobin (Vmh2 from Pleurotus ostreatus ) and an unknown protein (named PAC3), extracted from the marine fungal strain Acremonium sclerotigenum, which does not belong to the same protein family based on its sequence features. They both proved to be good biosurfactants, stabilizing emulsions in several conditions (concentration, pH, and salinity) and decreasing surface tension to a comparable value to that of some synthetic surfactants. After that, we observed for both Vmh2 and PAC3 the formation of giant fibers without the need for harsh conditions or long incubation time, a remarkable ability herein reported for the first time.

Published
2023
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30. Towards the Development of Antioxidant Cerium Oxide Nanoparticles for Biomedical Applications: Controlling the Properties by Tuning Synthesis Conditions.

Author

Gallucci N, Vitiello G, Di Girolamo R, Imbimbo P, Monti DM, Tarallo O, Vergara A, Russo Krauss I, and Paduano L

Abstract

In this work CeO 2 nanoparticles (CeO 2 -NPs) were synthesized through the thermal decomposition of Ce(NO 3 ) 3 ·6H 2 O, using as capping agents either octylamine or oleylamine, to evaluate the effect of alkyl chain length, an issue at 150 °C, in the case of octylamine and at 150 and 250 °C, in the case of oleylamine, to evaluate the effect of the temperature on NPs properties. All the nanoparticles were extensively characterized by a multidisciplinary approach, such as wide-angle X-ray diffraction, transmission electron microscopy, dynamic light scattering, UV-Vis, fluorescence, Raman and FTIR spectroscopies. The analysis of the experimental data shows that the capping agent nature and the synthesis temperature affect nanoparticle properties including size, morphology, aggregation and Ce 3+ /Ce 4+ ratio. Such issues have not been discussed yet, at the best of our knowledge, in the literature. Notably, CeO 2 -NPs synthesized in the presence of oleylamine at 250 °C showed no tendency to aggregation and we made them water-soluble through a further coating with sodium oleate. The obtained nanoparticles show a less tendency to clustering forming stable aggregates (ranging between 14 and 22 nm) of few NPs. These were tested for biocompatibility and ROS inhibiting activity, demonstrating a remarkable antioxidant activity, against oxidative stress.

Published
2021
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31. Coral-like plasmonic probes for tip-enhanced Raman spectroscopy.

Author

Capaccio A, Sasso A, Tarallo O, and Rusciano G

Abstract

Tip-enhanced Raman spectroscopy is a powerful tool for the analysis of system interfaces, enabling access to chemical information with nanometric spatial resolution and sensitivity up to the single molecule level. Such features are due to the presence of proper metallic nanostructures at the TERS probe apex, which, via the excitation of a plasmonic field, confine light to a nanometric region. The nano-sized characteristic of such metallic structures intrinsically renders the fabrication of high performing and reproducible TERS probes still a challenge. In this paper, we present a facile, rapid and effective approach to prepare Ag-based TERS probes. The fabrication process proposed herein is based on spinodal dewetting of Ag-coated AFM-probes through a RF plasma treatment. The obtained probes appear covered with a coral-like silver nanotexture, endowed with an excellent plasmonic activity. Intriguingly, such a texture can be easily tuned by changing some process parameters, such as Ag film thickness and exposure time to the plasma. The as-prepared TERS probes show a high TERS enhancement, reaching 107, and allow a good spatial resolution, down to 10 nm. Finally, we suggest an easy and effective procedure to restore oxidized TERS tips following exposure to ambient air, which can be applied to all types of Ag-based TERS tips.

Published
2020
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32. Nanocomposites of Au/Disentangled UHMWPE: A Combined Optical and Structural Study.

Author

Drakopoulos SX, Tarallo O, Guan L, Martin-Fabiani I, and Ronca S

Subjects
Metal Nanoparticles chemistry, Metal Nanoparticles ultrastructure, Nanocomposites ultrastructure, Spectrum Analysis, Gold chemistry, Nanocomposites chemistry, Polyethylenes chemistry
Abstract

The term disentangled refers to polymers with fewer entanglements in the amorphous regions, a metastable condition that can significantly affect the material's properties and processing behavior. The lower entanglement density in ultra-high molecular weight polyethylene (dis-UHMWPE) facilitates the solid-state processability into uniaxially-oriented specimens reaching very high draw ratios and crystallinities. In this study, Au/dis-UHMWPE nanocomposites were formulated and processed at variable draw ratios. Polarized light microscopy suggests gold nanoparticles are oriented in arrays following the drawing of polymer chains. The structural features, upon orientation, are studied by means of Raman spectroscopy, wide- and small-angle X-ray scattering, and near-infrared spectrophotometry. Crystallinity is found to increase by 15%, as calculated by wide-angle X-ray scattering. The change in optical absorbance in the visible spectrum indicates that, with orientation, the average size of gold aggregates increases, supported quantitatively by small-angle X-ray scattering. Since the gold nanoparticles are expected to be found within amorphous chain segments, the aforementioned findings are attributed to the increase of crystallinity and thus the decrease of available (amorphous) space.

Published
2020
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33. Hybrid Geopolymeric Foams for the Removal of Metallic Ions from Aqueous Waste Solutions.

Author

Roviello G, Chianese E, Ferone C, Ricciotti L, Roviello V, Cioffi R, and Tarallo O

Abstract

For the first time, hybrid organic-inorganic geopolymeric foams were successfully used as monolithic adsorbents for the removal of metallic ions pollutants from wastewaters. The foams were realized by the in situ foaming of a hybrid geopolymer obtained by a reaction of metakaolin and polysiloxane oligomers under strong alkaline conditions and then cured at room temperature. In this way, porous materials with densities ranging from 0.4 to 0.7 g/cm 3 and showing good mechanical properties were produced. With the aim of producing self-standing monolithic adsorbents for the removal of metallic ions pollutants from wastewaters, these porous hybrid geopolymers were subjected to a washing pretreatment with ultrapure water, dried, and then used for absorption tests by dipping them into an aqueous solution with an initial concentration of 20 ppm of Pb 2+ , Cd 2+ , Cu 2+ , and Zn 2+ ions. Preliminary results indicated that all the tested materials are effective in the adsorption of the tested metal ions and do not release the removed metal ions upon sinking in ultrapure water, even for a very long time. Interestingly, compressive strength tests performed before and after the washing treatments show that the foamed samples remain intact and maintain their physical-mechanical characteristics, suggesting that these kinds of materials are promising candidates for the production of self-standing, monolithic adsorbent substrates that can be easily collected when exhausted, which is a major advantage in comparison with the use of powdered adsorbents. Moreover, since these materials can be obtained by a simple and versatile experimental procedure, they could be easily shaped or directly foamed into precast molds to be used in packed beds as membranes.

Published
2019
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34. Hybrid Geopolymers from Fly Ash and Polysiloxanes.

Author

Roviello G, Ricciotti L, Molino AJ, Menna C, Ferone C, Cioffi R, and Tarallo O

Subjects
Mechanical Phenomena, Microscopy, Electron, Scanning, Molecular Structure, Spectrum Analysis, Coal Ash chemistry, Polymers chemistry, Siloxanes chemistry
Abstract

The preparation and characterization of innovative organic-inorganic hybrid geopolymers, obtained by valorizing coal fly ash generated from thermoelectric power plants, is reported for the first time. These hybrid materials are prepared by simultaneously reacting fly ash and dimethylsiloxane oligomers at 25 °C in a strongly alkaline environment. Despite their lower density, the obtained materials are characterized by highly improved mechanical properties when compared to the unmodified geopolymer obtained without the use of polysiloxanes, hence confirming the effectiveness of the applied synthetic strategy which specifically aims at obtaining hybrid materials with better mechanical properties in respect to conventional ones. This study is an example of the production of new materials by reusing and valorizing waste raw resources and by-products, thus representing a possible contribution towards the circular economy.

Published
2019
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35. Encapsulation of inuloxin A, a plant germacrane sesquiterpene with potential herbicidal activity, in β-cyclodextrins.

Author

Moeini A, Masi M, Zonno MC, Boari A, Cimmino A, Tarallo O, Vurro M, and Evidente A

Subjects
Germination drug effects, Herbicides administration & dosage, Herbicides chemistry, Orobanche growth & development, Plant Weeds growth & development, Seeds drug effects, Seeds growth & development, Sesquiterpenes administration & dosage, Sesquiterpenes chemistry, Sesquiterpenes, Germacrane administration & dosage, Sesquiterpenes, Germacrane chemistry, Solubility, Drug Carriers chemistry, Herbicides toxicity, Orobanche drug effects, Plant Weeds drug effects, Sesquiterpenes toxicity, Sesquiterpenes, Germacrane toxicity, beta-Cyclodextrins chemistry
Abstract

Inuloxin A is a promising plant phytotoxic sesquiterpene that deserves further studies to evaluate its potential as a bioherbicide. However, its low solubility in water and its bioavailability could hamper its practical applications. For this reason, inuloxin A was complexed with β-cyclodextrins by using three different methods, i.e., kneading, co-precipitation and grinding. The resulted complexes were fully characterized by different techniques such as 1H NMR, UV-vis, XRD, DSC and SEM, and they were biologically assayed in comparison with the pure compound in several biological systems. The efficacy of the kneading and grinding complexes was similar to that of inuloxin A and these complexes almost completely inhibit Phelipanche ramosa seed germination. The complete solubility in water and the preservation of the biological properties of these two complexes could allow further studies to develop a novel natural herbicide for parasitic plant management based on these formulations.

Published
2019
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36. Innovative Fly Ash Geopolymer-Epoxy Composites: Preparation, Microstructure and Mechanical Properties.

Author

Roviello G, Ricciotti L, Tarallo O, Ferone C, Colangelo F, Roviello V, and Cioffi R

Abstract

The preparation and characterization of composite materials based on geopolymers obtained from fly ash and epoxy resins are reported for the first time. These materials have been prepared through a synthetic method based on the concurrent reticulation of the organic and inorganic components that allows the formation of hydrogen bonding between the phases, ensuring a very high compatibility between them. These new composites show significantly improved mechanical properties if compared to neat geopolymers with the same composition and comparable performances in respect to analogous geopolymer-based composites obtained starting from more expensive raw material such as metakaolin. The positive combination of an easy synthetic approach with the use of industrial by-products has allowed producing novel low cost aluminosilicate binders that, thanks to their thixotropicity and good adhesion against materials commonly used in building constructions, could be used within the field of sustainable building.

Published
2016
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37. Synthesis and Characterization of Novel Epoxy Geopolymer Hybrid Composites.

Author

Roviello G, Ricciotti L, Ferone C, Colangelo F, Cioffi R, and Tarallo O

Abstract

The preparation and the characterization of novel geopolymer-based hybrid composites are reported. These materials have been prepared through an innovative synthetic approach, based on a co-reticulation in mild conditions of commercial epoxy based organic resins and a metakaolin-based geopolymer inorganic matrix. This synthetic strategy allows the obtainment of a homogeneous dispersion of the organic particles in the inorganic matrix, up to 25% in weight of the resin. The materials obtained present significantly enhanced compressive strengths and toughness with respect to the neat geopolymer, suggesting their wide utilization for structural applications. A preliminary characterization of the porous materials obtained by removing the organic phase from the hybrid composites by means of heat treatments is also reported. Possible applications of these materials in the field of water purification, filtration, or as lightweight insulating materials are envisaged.

Published
2013
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38. Synthesis and characterizations of melamine-based epoxy resins.

Author

Ricciotti L, Roviello G, Tarallo O, Borbone F, Ferone C, Colangelo F, Catauro M, and Cioffi R

Subjects
Epoxy Resins chemistry, Epoxy Resins chemical synthesis, Triazines chemistry
Abstract

A new, easy and cost-effective synthetic procedure for the preparation of thermosetting melamine-based epoxy resins is reported. By this innovative synthetic method, different kinds of resins can be obtained just by mixing the reagents in the presence of a catalyst without solvent and with mild curing conditions. Two types of resins were synthesized using melamine and a glycidyl derivative (resins I) or by adding a silane derivative (resin II). The resins were characterized by means of chemical-physical and thermal techniques. Experimental results show that all the prepared resins have a good thermal stability, but differ for their mechanical properties: resin I exhibits remarkable stiffness with a storage modulus value up to 830 MPa at room temperature, while lower storage moduli were found for resin II, indicating that the presence of silane groups could enhance the flexibility of these materials. The resins show a pot life higher than 30 min, which makes these resins good candidates for practical applications. The functionalization with silane terminations can be exploited in the formulation of hybrid organic-inorganic composite materials.

Published
2013
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39. Crystal structure of the trigonal form of isotactic polypropylene as an example of density-driven polymer structure.

Author

De Rosa C, Auriemma F, Corradini P, Tarallo O, Dello Iacono S, Ciaccia E, and Resconi L

Abstract

Propene-hexene copolymers crystallize in a new polymorphic form of isotactic polypropylene when the concentration of hexene is higher than nearly 10-15 mol %. The hexene units are included in the crystals, inducing an increase of density that allows crystallization of 3-fold helical chains in a trigonal unit cell according to the space group R3c or Rc, where the helical symmetry of the chains is maintained in the crystal lattice. The structure of this new form is similar to those of isotactic polybutene and polystyrene and does not crystallize in polypropylene homopolymer because it would have too low density. The crystal structure of isotactic polypropylene is therefore no longer an exception to the principles of polymer crystallography, but the new structure represents the fulfillment of these principles and indicates that the packing of polymer molecules is mainly driven by density.

Published
2006
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