Your search keyword '"Chiellini, Emo"' showing total 24 results

1. Amphiphilic Pentablock Copolymers Prepared from Pluronic and ε-Caprolactone by Enzymatic Ring Opening Polymerization.

Author

El-Fattah AA, Grillo Fernandes E, Chiellini F, and Chiellini E

Subjects

Calorimetry, Differential Scanning methods, Catalysis, Molecular Weight, Polymerization, Caproates chemistry, Lactones chemistry, Poloxamer chemistry, Polymers chemistry

Abstract

Amphiphilic copolymers are appealing materials because of their interesting architecture and tunable properties. In view of their application in the biomedical field, the preparation of these materials should avoid the use of toxic compounds as catalysts. Therefore, enzymatic catalysis is a suitable alternative to common synthetic routes. Pentablock copolymers (CUC) were synthesized with high yields by ring-opening polymerization of ε-caprolactone (ε-CL) initiated by Pluronic (EPE) and catalyzed by Candida antarctica lipase B enzyme. The variables to study the structure-property relationship were EPEs' molecular weight and molar ratios between ε-CL monomer and EPE macro-initiator (M/In). The obtained copolymers were chemically characterized, the molecular weight determined, and morphologies evaluated. The results suggest an interaction between the reaction time and M/In variables. There was a correlation between the differential scanning calorimetry data with those of X-ray diffraction (WAXD). The length of the central block of CUC copolymers may have an important role in the crystal formation. WAXD analyses indicated that a micro-phase separation takes place in all the prepared copolymers. Preliminary cytotoxicity experiments on the extracts of the polymer confirmed that these materials are nontoxic.

Published

2022

2. Cationic polymers and their therapeutic potential.

Author

Samal SK, Dash M, Van Vlierberghe S, Kaplan DL, Chiellini E, van Blitterswijk C, Moroni L, and Dubruel P

Subjects

Animals, Biocompatible Materials pharmacology, Biological Products chemistry, Biological Products pharmacology, Drug Carriers pharmacology, Gene Transfer Techniques, Humans, Polymers pharmacology, Tissue Engineering, Biocompatible Materials chemistry, Drug Carriers chemistry, Polymers chemistry

Abstract

The last decade has witnessed enormous research focused on cationic polymers. Cationic polymers are the subject of intense research as non-viral gene delivery systems, due to their flexible properties, facile synthesis, robustness and proven gene delivery efficiency. Here, we review the most recent scientific advances in cationic polymers and their derivatives not only for gene delivery purposes but also for various alternative therapeutic applications. An overview of the synthesis and preparation of cationic polymers is provided along with their inherent bioactive and intrinsic therapeutic potential. In addition, cationic polymer based biomedical materials are covered. Major progress in the fields of drug and gene delivery as well as tissue engineering applications is summarized in the present review.

Published

2012

3. More fluorous surface modifier makes it less oleophobic: fluorinated siloxane copolymer/PDMS coatings.

Author

Zhang W, Zheng Y, Orsini L, Morelli A, Galli G, Chiellini E, Carpenter EE, and Wynne KJ

Subjects

Microscopy, Atomic Force, Microscopy, Electron, Scanning, Molecular Structure, Surface Properties, Temperature, Dimethylpolysiloxanes chemistry, Fluorocarbon Polymers chemistry, Polymers chemistry

Abstract

A copolyacrylate with semifluorinated and polydimethylsiloxane side chains (D5-3) was used as a surface modifier for a condensation-cured PDMS coating. The decyl fluorous group is represented by "D"; "5" is a 5 kDa silicone, and "3" is the mole ratio of fluorous to silicone side chains. Wetting behavior was assessed by dynamic contact angle (DCA) analysis using isopropanol, which differentiates silicone and fluorous wetting behavior. Interestingly, a maximum in surface oleophobicity was found at low D5-3 concentration (0.4 wt %). Higher concentrations result in decreased oleophobicity, as reflected in decreased contact angles. To understand this unexpected observation, dynamic light scattering (DLS) studies were initiated on a model system consisting of hydroxyl-terminated PDMS (18 kDa) containing varying amounts of D5-3. DLS revealed D5-3 aggregation to be a function of temperature and concentration. A model is proposed by which D5-3 surface concentration is depleted via phase separation favoring D5-3 aggregation at concentrations >0.4 wt %, that is, the cmc. This model suggests increasing aggregate/micelle concentrations at increased D5-3 concentration. Bulk morphologies studied by scanning electron microscopy (SEM) and atomic force microscopy (AFM) support this model by showing increased aggregate concentrations with increased D5-3 > 0.4 wt %.

Published

2010

4. Fluorinated/siloxane copolymer blends for fouling release: chemical characterisation and biological evaluation with algae and barnacles.

Author

Marabotti I, Morelli A, Orsini LM, Martinelli E, Galli G, Chiellini E, Lien EM, Pettitt ME, Callow ME, Callow JA, Conlan SL, Mutton RJ, Clare AS, Kocijan A, Donik C, and Jenko M

Subjects

Adhesiveness, Animals, Dimethylpolysiloxanes chemical synthesis, Dimethylpolysiloxanes chemistry, Dimethylpolysiloxanes pharmacology, Surface Properties, Thoracica physiology, Ulva physiology, Fluorine chemistry, Fluorine pharmacology, Polymers chemical synthesis, Polymers chemistry, Polymers pharmacology, Siloxanes chemistry, Siloxanes pharmacology, Thoracica drug effects, Ulva drug effects

Abstract

Fouling-release coatings were prepared from blends of a fluorinated/siloxane copolymer with a poly(dimethyl siloxane) (PDMS) matrix in order to couple the low modulus character of PDMS with the low surface tension typical for fluorinated polymers. The content of the surface-active copolymer was varied in the blend over a broad range (0.15-10 wt % with respect to PDMS). X-ray photoelectron spectroscopy depth profiling analyses were performed on the coatings to establish the distribution of specific chemical constituents throughout the coatings, and proved enrichment in fluorine of the outermost layers of the coating surface. Addition of the fluorinated/siloxane copolymer to the PDMS matrix resulted in a concentration-dependent decrease in settlement of barnacle, Balanus amphitrite, cyprids. The release of young plants of Ulva, a soft fouling species, and young barnacles showed that adhesion strength on the fluorinated/siloxane copolymer was significantly lower than the siloxane control. However, differences in adhesion strength were not directly correlated with the concentration of copolymer in the blends.

Published

2009

5. Nanostructured films of amphiphilic fluorinated block copolymers for fouling release application.

Author

Martinelli E, Agostini S, Galli G, Chiellini E, Glisenti A, Pettitt ME, Callow ME, Callow JA, Graf K, and Bartels FW

Subjects

Animals, Bromine chemistry, Diatoms, Eukaryota metabolism, Magnetic Resonance Spectroscopy, Microscopy, Atomic Force, Polyethylene Glycols chemistry, Polystyrenes chemistry, Polytetrafluoroethylene chemistry, Seaweed, Silicones chemistry, Spectrometry, X-Ray Emission methods, Surface Properties, Nanostructures chemistry, Polymers chemistry

Abstract

New amphiphilic block copolymers S nSz m consisting of blocks with varied degrees of polymerization, n and m, of polystyrene, S, and polystyrene carrying an amphiphilic polyoxyethylene-polytetrafluoroethylene chain side-group, Sz, were prepared by controlled atom transfer radical polymerization (ATRP). The block copolymers, either alone or in a blend with commercial SEBS (10 wt% SEBS), were spin-coated in thinner films (200-400 nm) on glass and spray-coated in thicker films ( approximately 500 nm) on a SEBS underlayer (150-200 microm). Angle-resolved X-ray photoelectron spectroscopy (XPS) measurements proved that at any photoemission angle, varphi, the atomic ratio F/C was larger than that expected from the known stoichiometry. Consistent with the enrichment of the outer film surface (3-10 nm) in F content, the measured contact angles, theta, with water (theta w > or = 107 degrees ) and n-hexadecane (theta h > or = 64 degrees ) pointed to the simultaneous hydrophobic and lipophobic character of the films. The film surface tension gamma S calculated from the theta values was in the range 13-15 mN/m. However, the XPS measurements on the "wet" films after immersion in water demonstrated that the film surface underwent reconstruction owing to its amphiphilic nature, thereby giving rise to a more chemically heterogeneous structure. The atomic force microscopy (AFM) images (tapping mode/AC mode) revealed well-defined morphological features of the nanostructured films. Depending on the chemical composition of the block copolymers, spherical (ca. 20 nm diameter) and lying cylindrical (24-29 nm periodicity) nanodomains of the S discrete phase were segregated from the Sz continuous matrix (root-mean-square, rms, roughness approximately 1 nm). After immersion in water, the underwater AFM patterns evidenced a transformation to a mixed surface structure, in which the nanoscale heterogeneity and topography (rms = 1-6 nm) were increased. The coatings were subjected to laboratory bioassays to explore their intrinsic ability to resist the settlement and reduce the adhesion strength of two marine algae, viz., the macroalga (seaweed) Ulva linza and the unicellular diatom Navicula perminuta. The amphiphilic nature of the copolymer coatings resulted in distinctly different performances against these two organisms. Ulva adhered less strongly to the coatings richer in the amphiphilic polystyrene component, percentage removal being maximal at intermediate weight contents. In contrast, Navicula cells adhered less strongly to coatings with a lower weight percentage of the amphiphilic side chains. The results are discussed in terms of the changes in surface structure caused by immersion and the effects such changes may have on the adhesion of the test organisms.

Published

2008

6. Bioactive polymeric materials for targeted administration of active agents: synthesis and evaluation.

Author

Chiellini F, Piras AM, Gazzarri M, Bartoli C, Ferri M, Paolini L, and Chiellini E

Subjects

Animals, BALB 3T3 Cells, Biocompatible Materials chemical synthesis, Biocompatible Materials pharmacology, Cell Survival drug effects, Chromatography, High Pressure Liquid, Esterification, Ethers chemistry, Fibrin chemistry, Fibrin immunology, Fibrinolytic Agents chemistry, Immunoglobulin Fab Fragments chemistry, Immunoglobulin Fab Fragments immunology, Inhibitory Concentration 50, Magnetic Resonance Spectroscopy, Maleic Anhydrides chemistry, Mice, Molecular Structure, Molecular Weight, Polyethylene Glycols chemistry, Polymers chemical synthesis, Polymers pharmacology, Spectroscopy, Fourier Transform Infrared, Sulfhydryl Compounds chemistry, Vinyl Compounds chemistry, Biocompatible Materials chemistry, Drug Delivery Systems methods, Fibrinolytic Agents administration & dosage, Polymers chemistry

Abstract

Bioerodible polymers displaying both stealth and targeting properties for the preparation of nanosystems for targeted and controlled delivery of fibrinolytic drugs to the thrombus were prepared by straightforward synthetic routes and characterized. Poly[(maleic anhydride)-alt-(butylvinyl ether)]s were synthesized in the presence of dodecyl mercaptan as chain transfer agent allowing for the preparation of copolymers with tunable molecular weight. 2-Methoxyethanol hemiesters containing antiopsonizing molecules of poly(ethylene glycol) were prepared and further biofunctionalized with a Fab fragment by a two-step reaction. In vitro biocompatibility investigation of the prepared materials supported their suitability for biomedical applications.

Published

2008

7. Micro/nanostructured polymeric systems for biomedical and pharmaceutical applications.

Author

Chiellini F, Piras AM, Errico C, and Chiellini E

Subjects

Miniaturization, Drug Compounding methods, Drug Design, Nanostructures chemistry, Nanostructures ultrastructure, Pharmaceutical Preparations administration & dosage, Pharmaceutical Preparations chemistry, Polymers chemistry

Abstract

This review provides an outline of the polymeric micro/nanostructured advanced systems that are suited for the controlled and targeted administration of, specifically, nonconventional drugs. The contribution of new trends in drug-delivery technology is focused on two major parts, dealing with brief surveys of: the biodegradable/bioerodible polymeric systems used in the formulation of micro/nanoparticles and techniques used in the preparation of micro/nanoparticles for their biomedical application in cancer treatment specifically, in inflammation pathologies, as oxygen carriers (blood substitutes) and in tissue-engineering practice. A small discussion of the future perspectives of the described systems is also given.

Published

2008

8. Comparative life cycle studies on poly(3-hydroxybutyrate)-based composites as potential replacement for conventional petrochemical plastics.

Author

Pietrini M, Roes L, Patel MK, and Chiellini E

Subjects

X-Ray Diffraction, 3-Hydroxybutyric Acid chemistry, Polymers chemistry

Abstract

A cradle-to-grave environmental life cycle assessment (LCA) of a few poly(3-hydroxybutyrate) (PHB) based composites has been performed and was compared to commodity petrochemical polymers. The end products studied are a cathode ray tube (CRT) monitor housing (conventionally produced from high-impact polystyrene, HIPS) and the internal panels of an average car (conventionally produced from glass-fibers-filled polypropylene, PP-GF). The environmental impact is evaluated on the basis of nonrenewable energy use (NREU) and global warming potential over a 100 years time horizon (GWP100). Sugar cane bagasse (SCB) and nanoscaled organophilic montmorillonite (OMMT) are used as PHB fillers. The results obtained show that, despite the unsatisfying mechanical properties of PHB composites, depending on the type of filler and on the product, it is possible to reach lower environmental impacts than by use of conventional petrochemical polymers. These savings are mainly related to the PHB production process, while there are no improvements related to composites preparation. SCB-based composites seem to be environmentally superior to clay-based ones.

Published

2007

9. Structure and energetics of biocompatible polymer nanocomposite systems: a molecular dynamics study.

Author

Toth R, Ferrone M, Miertus S, Chiellini E, Fermeglia M, and Pricl S

Subjects

Aluminum Hydroxide chemistry, Magnesium Hydroxide chemistry, Models, Molecular, Molecular Structure, Anti-Inflammatory Agents, Non-Steroidal chemistry, Biocompatible Materials chemistry, Models, Chemical, Nanostructures chemistry, Polymers chemistry, Thermodynamics

Abstract

Isothermal-isobaric (NPT) molecular dynamics simulations have been performed to investigate the structure, morphology, and energetics of polymer organoclay nanocomposites based on seven nonsteroidal antiinflammatory drugs (NSAIDs), two biocompatible polymers, and hydrotalcite as the clay mineral, both in an anhydrous and in a solvated environment. The results of our theoretical computations show that nanoconfined conformations of smaller NSAIDs are more affected by the presence of water molecules in the clay gallery with respect to their larger counterparts. Moreover, the presence of water in the mineral interlayer space decreases the interaction energy between the NSAID molecules and the clay, and this detrimental effect is further enhanced by the presence of polar moieties onto the NSAIDs. Finally, from the thermodynamics standpoint, the best intercalation results in a solvated environment could be obtained with PVA in the case of less polar drugs, while PHB could be the polymer of choice in the case of highly polar NSAIDs.

Published

2006

10. Bio-based Polyethylene-Lignin Composites Containing a Pro-oxidant/Pro-degradant Additive: Preparation and Characterization.

Author

Samal, Sangram, Fernandes, E., Corti, Andrea, and Chiellini, Emo

Subjects

POLYETHYLENE, LIGNINS, BIOPOLYMERS, ADDITIVES, POLYMERS, POLYMERIC composites, MECHANICAL properties of polymers

Abstract

Formulations of low cost bio-based oxo-biodegradable polyethylene (PE)/Lignin hybrid polymeric composites were prepared by using ethylene/vinyl acetate (EVA) copolymer as compatibilizer and a transition metal salt as oxo-biodegradation promoter. The hybrid composites and relevant Lignin-free blends were formulated by following a statistical mixture design. The effect of Lignin, pro-degradant additive, EVA copolymer and their compatibility with the PE continuous matrix, was evaluated by means of structural features by attenuated total reflectance, morphological by scanning electron microscopy, thermal by differential scanning calorimetry and thermo-gravimetric analysis and mechanical properties by an Instron Machine. The results attained in this study, regarding especially the thermal and mechanical properties, suggest that bio-based oxo-biodegradable hybrid composites offer an interesting way to produce low cost bio-based materials with fairly enhanced properties. The moderate-low cost hybrid materials appear to be attractive for their potential in the mercantile area of commodities including: packaging, personal care products, agricultural mulch films and disposable items. This will constitute a novel added-value contribution aimed at mitigating the environmental burden caused by plastic waste items improperly abandoned in the environment. [ABSTRACT FROM AUTHOR]

Published

2014

11. Bioactive polymeric materials in biomedical and pharmaceutical applications -- a story ongoing for decades.

Author

CHIELLINI, EMO

Subjects

BIOPOLYMERS, BIOMEDICAL materials, MEDICAL sciences, PHARMACEUTICAL technology, POLYMERS, CHEMICAL engineering, TECHNOLOGICAL innovations

Abstract

Copyright of Polimery is the property of Industrial Chemistry Research Institute and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2013

12. A novel Electrospinning Procedure for the Production of Straight Aligned and Winded Fibers.

Author

Errico, Cesare, Chiellini, Federica, Detta, Nicola, Piras, Anna Maria, Puppi, Dario, and Chiellini, Emo

Subjects

ELECTROSPINNING, FIBERS, POLYMERS, ELECTROPHORETIC deposition, THREE-dimensional textiles, ELECTRIC fields

Abstract

An electrospinning procedure allowing the spinning of a straight jet of polymer solution was developed. By using proper collector devices, it enables to collect winded and aligned fibers and to prepare polymeric constructs developing along the Z axis. The reported results are expected to provide basic understandings on which parameters are controlling the stability/instability of the process and implement new applications of electrospinning with specific reference to the preparation of well defined three-dimensional structures. [ABSTRACT FROM AUTHOR]

Published

2011

13. Polymeric nanostructured items electrospun on a cylindrical template: a simple procedure for their removal.

Author

Errico, Cesare, Detta, Nicola, Puppi, Dario, Piras, Anna Maria, Chiellini, Federica, and Chiellini, Emo

Subjects

POLYMERS, BLOOD vessel prosthesis, ELECTROSPINNING, NANOSTRUCTURED materials, NANOTECHNOLOGY

Abstract

Tubular structures, obtained by electrospinning on a rotating mandrel, are of interest for use as devices in medical and industrial applications. However, removal of electrospun tubes from the collecting mandrel has been a major problem and various techniques have been proposed, though having severe drawbacks. In our study, a method to safely remove electrospun tubes from a template mandrel (collector) is described. Before electrospinning, a copper wire is rolled up on the mandrel to form a helix, with the purpose of creating a gap between mandrel and electrospun tube once the wire is easily removed from the mandrel. Adopting the described methodology, uniform electrospun polymeric tubes can be easily removed from the mandrel. The procedure for fast rolling up of the wire on the rotating mandrel is also described. Copyright © 2011 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published

2011

14. Continuous production of poly([ R]-3-hydroxybutyrate) by Cupriavidus necator in a multistage bioreactor cascade.

Author

Atlić, Aid, Koller, Martin, Scherzer, Dietrich, Kutschera, Christoph, Grillo-Fernandes, Elizabeth, Horvat, Predrag, Chiellini, Emo, and Braunegg, Gerhart

Subjects

POLYMERS, BIOREACTORS, NECATOR, FERMENTATION, BACTERIAL growth

Abstract

Poly(hydroxyalkanoates) (PHAs) constitute biodegradable polyesters and are considered among the most promising candidates to replace common petrochemical plastics in various applications. To date, all commercial processes for PHA production employ microbial discontinuous fed-batch fermentations. These processes feature drawbacks such as varying product quality and the inevitable periods of downtime for preparation and post-treatment of the bioreactor equipment. An unprecedented approach to PHA production was chosen in the presented work using a multistage system consisting of five continuous stirred tank reactors in series (5-SCR), which can be considered as a process engineering substitute of a continuous tubular plug flow reactor. The first stage of the reactor cascade is the site of balanced bacterial growth; thereafter, the fermentation broth is continuously fed from the first into the subsequent reactors, where PHA accumulation takes place under nitrogen-limiting conditions. Cupriavidus necator was used as production strain. The focus of the experimental work was devoted to the development of a PHA production process characterized by high productivity and high intracellular polymer content. The results of the experimental work with the reactor cascade demonstrated its potential in terms of volumetric and specific productivity (1.85 g L h and 0.100 g g h, respectively), polymer content (77%, w/ w) and polymer properties ( M = 665 kg/mol, PDI = 2.6). Thus, implementing the technology for 5-SCR production of PHB results in an economically viable process. The study compares the outcome of the work with literature data from continuous two-stage PHA production and industrial PHA production in fed-batch mode. [ABSTRACT FROM AUTHOR]

Published

2011

15. Microbial biomass yield and turnover in soil biodegradation tests: carbon substrate effects.

Author

Chiellini, Emo, Corti, Andrea, D’Antone, Salvatore, and Billingham, Norman

Subjects

BIOMASS, BIODEGRADATION, POLYMERS, CARBON dioxide, CARBON in soils, HUMUS, SOIL oxidation, CELLULOSE, STARCH, MACROMOLECULES

Abstract

Most of the standardized biodegradation tests used to assess the ultimate biodegradation of environmentally degradable polymers are based solely on the determination of net evolved carbon dioxide. However, under aerobic conditions, it has to be considered that heterotrophic microbial consortia metabolize carbon substrates both to carbon dioxide and in the production of new cell biomass. It is generally accepted that in the relatively short term, 50% of the carbon content of most organic substrates is converted to CO2, with the remaining carbon being assimilated as biomass or incorporated into humus. The latter is particularly important when the metabolism of the organic matter occurs in a soil environment. A straightforward relationship between the free-energy content of a carbon substrate (expressed as the standard free-energy of combustion) and its propensity for conversion to new microbial biomass rather than mineralization to CO2 has been established. This can potentially lead to underestimation of biodegradation levels of test compounds, especially when they consist of carbon in a fairly low formal oxidation state and relatively high free-energy content. In the present work, the metabolism of different kind of carbon substrates, especially in soil, is reviewed and compared with our own experimental results from respirometric tests. The results show that conversion of highly oxidized materials, such as the commonly used reference materials, cellulose or starch, to CO2 may be significantly overestimated. The addition of glucosidic material to soil leads to greatly increased respiration and is accompanied by a very low conversion to biomass or humic substances. In contrast, relatively less oxidized substrates metabolize more slowly to give both CO2 and biomass to an extent which may be significantly underestimated if glucosidic materials are used as the reference. The need for an overall carbon balance taking into account both the carbon immobilized as biomass and that volatized as CO2 must be considered in standard respirometric procedures for assessing the biodegradability of slowly degrading macromolecules. [ABSTRACT FROM AUTHOR]

Published

2007

16. Oxo-biodegradable polymers – Effect of hydrolysis degree on biodegradation behaviour of poly(vinyl alcohol)

Author

Chiellini, Emo, Corti, Andrea, Del Sarto, Graziano, and D'Antone, Salvatore

Subjects

*POLYMERS, *POLYVINYL alcohol, *BIODEGRADATION, *OXIDATION, *POLYMERIZATION, *HYDROLYSIS

Abstract

Abstract: Poly(vinyl alcohol) (PVA) is considered to be one of the very few vinyl polymers soluble in water and susceptible to biodegradation in aqueous media by specific microorganisms, implying oxidation of the carbon backbone followed by a random endocleavage of the polymer chains. The overall process does not appear to be appreciably affected by either degree of polymerization (DPn) or degree of hydrolysis (HD) of PVA at least in the 100–1000 and 80–100% ranges, respectively. In order to assess the effect of HD on the biodegradation propensity of PVA, different PVA samples having similar DPn and noticeably different HD values were synthesized by controlled acetylation of commercial PVA (HD=99%) and submitted to biodegradation tests in aqueous medium, mature compost and soil by using respirometric procedures. Re-acetylated PVA samples characterized by HD of between 25 and 75% underwent extensive mineralization when buried in solid media, whilst PVA (HD=99%) showed recalcitrance to biodegradation under those conditions. An opposite trend was indeed observed in aqueous solution, thus suggesting that biodegradation is not an absolute attribute directly related to structural features of the substrate under investigation. Boundary conditions related to the framework under which the biodegradation assessment is undertaken have to be taken into account and specifically well defined. [Copyright &y& Elsevier]

Published

2006

17. Poly(Ester-Sulfide)s from Oligo(Oxyethylene)Dithiols and Bis(acrylates).

Author

Tomasi, Simone, Bizzarri, Ranieri, Solaro, Roberto, and Chiellini, Emo

Subjects

POLYMERS, GLYCOLS

Abstract

Poly(B-thioesters) were synthesized by Michael-type base-catalyzed polyaddition of oligo(ethylene glycol) A,O-dithiols to bis(acrylic esters). Fine tuning of the hydrophilic--hydrophobic balance of the polymers can be achieved by modulating the length of the oligo(ethylene glycol) segment and the nature of the spacer between the two ester groups in the bis(acrylate) moiety. Investigation of the reactivity of oligo(ethylene glycol)dithiols with acrylic systems is reported, with the aim of determining the best conditions for a polyaddition process involving the base catalyzed addition of such dithiols to bis(acrylate) systems. Some hypotheses are proposed for the role of the solvent and of the catalyst. The influence of the molecular structure of the reactants on reactivity and on the properties of the resulting polymers is also discussed. [ABSTRACT FROM AUTHOR]

Published

2002

18. MULTIFUNCTIONAL HYDROPHILIC POLYMERS.

Author

CHIELLINI, EMO, BIZZARRI, RANIERI, BONAGUIDI, PAOLO, TALAMELLI, PAOLO, and SOLARO, ROBERTO

Subjects

*WATER-soluble polymers, *POLYMERS, *POLYMERIC drug delivery systems

Abstract

Different types of multifunctional hydrophilic polymers were synthesized and characterized in view of their possible biomedical application. Several poly(amide)s and poly(ester-amide)s containing oligo(oxyethylene) segments and tartaric or succinic acid residues were prepared by activated polycondensation methods. New functional derivatives of β-cyclodextrin were obtained by reaction with glycidyl ether of protected polyols. The mechanism of β-cyclodextrin polymerization with epichlorohydrine was investigated by 13C-NMR spectroscopy. [ABSTRACT FROM AUTHOR]

Published

1999

19. Frontiers in Biomedical Polymer Applications

Author

Ottenbrite, Raphael M., Chiellini, Emo, Ottenbrite, Raphael M., and Chiellini, Emo

Subjects

Polymers, Polymers in medicine--Congresses, Biomedical materials

Abstract

An accumulation of the papers presented at the First International Meeting on the Frontiers of Medical Application of Polymers, held in St. Margarite, Italy.

Published

1999

20. Biodegradation of poly(vinyl alcohol) in selected mixed microbial culture and relevant culture filtrate

Author

Corti, Andrea, Solaro, Roberto, and Chiellini, Emo

Subjects

*POLYVINYL alcohol, *POLYMERS, *HYDROLYSIS, *BIODEGRADATION

Abstract

The dependence of PVA biodegradation on polymer molecular weight, degree of hydrolysis, and content of head-to-head structural units was investigated in the presence of a PVA-degrading microbial population and of the relevant culture supernatant. Respirometric tests carried out in the presence of the selected microbial population evidenced a limited but significant delay in the mineralization profile depending upon the degree of PVA hydrolysis, whereas no remarkable effect by molecular weight was detected. Five bacterial strains were isolated from the PVA-degrading microbial population, but only the degradation of low molecular weight fractions was recorded in cultures inoculated with single bacterial strains. The exclusive attack of low molecular weight fractions is in accordance with the occurrence of an additional degradation mechanism different from that generally proposed for PVA biodegradation. Experiments carried out in the presence of the culture supernatant clearly demonstrated the presence of a PVA degrading enzymatic system in the solution. Kinetic studies carried out under the reported conditions suggested the occurrence of a random cleavage of PVA chains. No influence of both molecular weight and content of head-to-head structural units on the enzymatic degradation process was observed. Enzymatic assays excluded the presence of extracellular esterases in the culture supernatant but confirmed the presence of oxidases. [Copyright &y& Elsevier]

Published

2002

21. Frontiers in Biomedical Polymer Applications

Author

Ottenbrite, Raphael M., Chiellini, Emo, Ottenbrite, Raphael M., and Chiellini, Emo

Subjects

Polymers, Polymers in medicine--Congresses, Biomedical materials

Abstract

An accumulation of the papers presented at the First International Meeting on the Frontiers of Medical Application of Polymers, held in St. Margarite, Italy.

Published

1998

22. Polyhydroxyalkanoate biosynthesis by Hydrogenophaga pseudoflava DSM1034 from structurally unrelated carbon sources.

Author

Povolo, Silvana, Romanelli, Maria Giovanna, Basaglia, Marina, Ilieva, Vassilka Ivanova, Corti, Andrea, Morelli, Andrea, Chiellini, Emo, and Casella, Sergio

Subjects

*POLYHYDROXYALKANOATES synthesis, *MONOMERS, *CARBON, *DAIRY industry, *POLYMERS

Abstract

In the present paper we report the exclusive microbial preparation of polyhydroxyalkanoates (PHA) containing 3-hydroxybutyrate (3HB), 3-hydroxyvalerate (3HV) and 4-hydroxybutyrate (4HB) as comonomers through the use of unexpensive carbon sources such as whey from dairy industry. Polymers were produced by growing H. pseudoflava DSM 1034 in minimal medium supplemented with sucrose, lactose or whey without any co-substrate added. The chemical and physical properties of the polymers were fully characterized by GPC, DSC, TGA analyses and the composition by GC and 1H NMR examinations to especially confirm the content of different monomeric units. The presence of 4HB units into PHA samples is particularly aimed in thermoplastic applications where greater flexibility is required and conventional rigid PHAs tend to fail. Usually the insertion of 4HB into chain backbone consisting of 3-hydroxyalkanoates requires expensive carbon sources mostly of petrochemical origin. According to our study the production of P(3HB-co-3HV-co-4HB) terpolymer can be obtained directly by the use of lactose or waste raw materials such as cheese whey as carbon sources. Although the amount of 4HB in the produced terpolymers was usually low and not exceeding 10% of the total molar composition, a PHA containing 18.4% of 4HB units was produced in 1 step fermentation process from this structurally unrelated carbon sources. The crystallinity of the terpolymer is basically to be markedly affected with respect to that of conventional PHAs, thus obtaining a comparatively less rigid material and easier to be processed. [ABSTRACT FROM AUTHOR]

Published

2013

23. Oxidation and biodegradation of polyethylene films containing pro-oxidant additives: Synergistic effects of sunlight exposure, thermal aging and fungal biodegradation

Author

Corti, Andrea, Muniyasamy, Sudhakar, Vitali, Manuele, Imam, Syed H., and Chiellini, Emo

Subjects

*BIODEGRADATION, *POLYMERS, *LOW density polyethylene, *THIN films, *OXIDATION, *ADDITIVES, *SUNSHINE, *FUNGAL remediation, *THERMAL properties of polymers

Abstract

Abstract: Synergistic effects of sunlight exposure, thermal aging and fungal biodegradation on the oxidation and biodegradation of linear low density poly(ethylene) PE-LLD films containing pro-oxidant were examined. To achieve oxidation and degradation, films were first exposed to the sunlight for 93 days during the summer months followed by their incubation with fungal strains previously isolated from the soil based on the ability to grow on the oxidized PE-LLD as a sole carbon source. Some films were also thermally aged at temperatures ranging between 45°C and 65 °C, either before or after fungal degradation. Films with pro-oxidant additives exhibited a higher level of oxidation as revealed by increase in their carbonyl index (COi). In addition to increase in the COi, films showed a slight increase in crystallinity and melting temperature (T m), considerably lower onset degradation temperatures, and a concomitant increase in the % weight of the residues. The level of oxidation observed in thermally aged films was directly proportional to the aging temperature. The PE-LLD films with pro-oxidant exposed to sunlight followed by thermal aging showed even higher rate and extent of oxidation when subsequently subjected to fungal biodegradation. The higher oxidation rate also correlated well with the CO2 production in the fungal biodegradation tests. Similar films oxidized and aged but not exposed to fungal biodegradation showed much less degradation. Microscopic examination showed a profuse growth and colonization of fungal mycelia on the oxidized films by one strain, while another spore-producing strain grew around the film edges. Data presented here suggest that abiotic oxidation of polymer''s carbon backbone produced metabolites which supported metabolic activities in fungal cells leading to further biotically-mediated polymer degradation. Thus, a combined impact of abiotic and biotic factors promoted the oxidation/biodegradation of PE-LLD films containing pro-oxidants. [Copyright &y& Elsevier]

Published

2010

24. Standardization and certification in the area of environmentally degradable plastics

Author

Krzan, Andrej, Hemjinda, Sarunya, Miertus, Stanislav, Corti, Andrea, and Chiellini, Emo

Subjects

*POLYMERS, *PLASTICS, *BIODEGRADABLE plastics, *BIOPOLYMERS, *RESEARCH

Abstract

Abstract: Environmentally degradable polymers and plastics (EDPs) are a group of polymeric materials experiencing a rapid growth in number as well as in their applications and quantities used. The assessment of their key characteristic – degradability, including eventually biodegradability as the ultimate stage, is scientifically and technically a challenging issue and has led to differing interpretations in the past. In order to standardize techniques and criteria a number of standards were established by different standardization bodies which are also used as a basis for certification schemes. An up-to-date inventory of the rapidly growing standardization body is presented with basic interpretation to help guide the non-expert. A basic introduction to EDPs and polymer degradation is added for clarity. [Copyright &y& Elsevier]

Published

2006