Search results for "Lene"

showing 10 items of 4480 documents

Compatibilization of Polylactide/Poly(ethylene 2,5-furanoate) (PLA/PEF) Blends for Sustainable and Bioderived Packaging.

2022

Despite the advantages of polylactide (PLA), its inadequate UV-shielding and gas-barrier properties undermine its wide application as a flexible packaging film for perishable items. These issues are addressed in this work by investigating the properties of melt-mixed, fully bioderived blends of polylactide (PLA) and poly(ethylene furanoate) (PEF), as a function of the PEF weight fraction (1–30 wt %) and the amount of the commercial compatibilizer/chain extender Joncryl ADR 4468 (J, 0.25–1 phr). J mitigates the immiscibility of the two polymer phases by decreasing and homogenizing the PEF domain size; for the blend containing 10 wt % of PEF, the PEF domain size drops from 0.67 &p…

poly(ethylene furanoate)compatibilizationPolymersPolyestersOrganic ChemistryPharmaceutical ScienceEthylenesfuranoatesAnalytical ChemistryOxygenSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiBlendsgas-permeabilityChemistry (miscellaneous)PolyethylenepolylactideDrug DiscoveryblendsMolecular Medicinepolylactide; furanoates; poly(ethylene furanoate); blends; compatibilization; gas-permeability; UV-shieldingUV-shieldingPhysical and Theoretical ChemistryMolecules (Basel, Switzerland)
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Sequestration of biogenic amines by alginic and fulvic acids.

2006

The interaction of natural (alginic and fulvic acids) and synthetic (polyacrylic acid 2.0 kDa) polyelectrolytes with some protonated polyamines [diamines: ethylendiamine, 1,4-diaminobutane (or putrescine), 1,5-diaminopentane (or cadaverine); triamines: N-(3-aminopropyl)-1,4diaminobutane (or spermidine), diethylenetriamine; tetramine: N.N'-bis(3-aminopropyl)-1,4-diaminobutane (or spermine); pentamine: tetraethylene-pentamine; hexamine: pentaethylenehexamine] was studied at T=25 degrees C by potentiometry and calorimetry. Measurements were performed without supporting electrolyte, in order to avoid interference, and results were reported at I=0 mol L(-1). For all the systems, the formation of…

polyammonium-polycarboxylate interactionsAlginatesPolymersBiogenic aminesInorganic chemistryFulvic acidCarboxylic AcidsBiophysicsProtonationCalorimetryBiochemistryMedicinal chemistryElectrolyteschemistry.chemical_compoundbiogenic amineGlucuronic AcidPolyaminesBenzopyransAlginic acidPolyacrylic acidCadaverineChemistryHexuronic AcidsOrganic ChemistryPolyacrylic acidPentaminesequestrationPolyelectrolytesPolyelectrolyteQuaternary Ammonium CompoundsBiogenic amines; Fulvic acid; Alginic acid; Polyacrylic acid; sequestrationModels ChemicalDiethylenetriamineThermodynamicsAmine gas treatingProtonsMathematics
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Acid-Labile Surfactants Based on Poly(ethylene glycol), Carbon Dioxide and Propylene Oxide: Miniemulsion Polymerization and Degradation Studies

2017

Partially degradable, nonionic AB and ABA type di- and triblock copolymers based on poly(propylene carbonate) and poly(ethylene glycol) blocks were synthesized via immortal copolymerization of carbon dioxide and propylene oxide, using mPEG or PEG as a macroinitiator, and (R,R)-(salcy)-CoOBzF5 as a catalyst in a solvent-free one-pot procedure. The amphiphilic surfactants were prepared with molecular weights (Mn) between 2800 and 10,000 g·mol−1 with narrow molecular weight distributions (1.03–1.09). The copolymers were characterized using 1H-, 13C- and DOSY-NMR spectroscopy and size exclusion chromatography (SEC). Surface-active properties were determined by surface tension measurements (crit…

polycarbonate; CO2; surfactant; miniemulsion polymerization; degradation; nanoparticleMaterials sciencePolymers and Plasticssurfactant02 engineering and technology010402 general chemistry01 natural sciencesArticleStyrenelcsh:QD241-441chemistry.chemical_compoundlcsh:Organic chemistryPolymer chemistryCopolymerPropylene oxidedegradationnanoparticleGeneral Chemistry021001 nanoscience & nanotechnology0104 chemical sciencesMiniemulsionpolycarbonateChemical engineeringPolymerizationchemistryminiemulsion polymerizationCritical micelle concentrationPropylene carbonateCO20210 nano-technologyEthylene glycolPolymers
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Many-scale molecular modeling of PET/PEN blends

2005

polyethylene PET/PEN blend
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Pro-Degradant Activity of Naturally Occurring Compounds on Polyethylene in Accelerate Weathering Conditions

2019

In this work, naturally occurring compounds, such as Vitamin E (VE) and Ferulic Acid (FA), at high concentrations, have been considered as pro-degradant agents for Low Density Polyethylene (PE). However, all obtained results using the naturally occurring molecules as pro-oxidant agents for PE have been compared with the results achieved using a classical pro-oxidant agent, such as calcium stearate (Ca stearate) and with neat PE. The preliminary characterization, through rheological, mechanical and thermal analysis, of the PE-based systems highlights that the used naturally occurring molecules are able to exert a slight plasticizing action on PE and subsequently the PE rigidity and crystalli…

polyethylene02 engineering and technology010402 general chemistryCalcium stearatelcsh:Technology01 natural sciencesArticlepro-oxidant activityFerulic acidchemistry.chemical_compoundCrystallinityStearateGeneral Materials Sciencelcsh:MicroscopyNaturally occurring compoundlcsh:QC120-168.85lcsh:QH201-278.5lcsh:TPolyethylene021001 nanoscience & nanotechnologyphoto-oxidation0104 chemical sciencesPolyolefinLow-density polyethylenechemistrylcsh:TA1-2040Degradation (geology)lcsh:Descriptive and experimental mechanicsnaturally occurring compoundslcsh:Electrical engineering. Electronics. Nuclear engineeringlcsh:Engineering (General). Civil engineering (General)0210 nano-technologylcsh:TK1-9971Nuclear chemistryMaterials
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RILEM TC 279 WMR round robin study on waste polyethylene modified bituminous binders: advantages and challenges

2022

inter-laboratory experiments were designed to evaluate the impact of plas- tic waste blended directly in bitumen and to assess the properties, using conventional and advanced bituminous binder testing. The blends tar- geted 5% of plastic waste in 95% bitumen, using two types of polyethy- lene (PE) primary (pellets) and secondary (shreds) waste. The experiments showed that the addition of PE waste to bitumen does not alter the chem- istry of the bitumen, the blending is physical. The DSR results indicate a strong dependency on the testing temperature as at low temperatures the composite material bitumen and PE behave both elastically whereas, at higher temperatures, the bitumen becomes visco…

polyethyleneAsphalt; performance; plastics; polyethylene; wasteplasticAsphalt waste polyethylene plastics performanceSettore ICAR/04 - Strade Ferrovie Ed AeroportiAsphaltwasteplasticsperformanceCivil and Structural Engineering
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Metallocenes and post-metallocenes immobilized on ionic liquid-modified silica as catalysts for polymerization of ethylene

2014

Abstract The supported ionic liquid (SIL) strategy was used for the first time to metallocene and post-metallocene heterogeneous catalysts for olefin polymerization. The metal complexes: Cp2TiCl2, Cp2ZrCl2, FI–Ti, and Sal–Ti were immobilized in the 1-(3-triethoxysilyl)propyl-3-methylimidazolium alkylchloroaluminate ionic liquid, anchored on the surface of the mesoporous amorphous silica. The SIL systems were characterized by FTIR, 29Si NMR, N2 adsorption, EA, AAS, TG, and SEM techniques. The developed supported catalytic systems were found to be active in the ethylene polymerization and produce the polyethylene of various properties.

polyethyleneChemistryProcess Chemistry and TechnologyPost-metallocene catalystPolyethyleneCatalysischemistry.chemical_compoundAdsorptionPolymerizationsilicaIonic liquidPolymer chemistryorganometallic catalystCoordination polymerizationMesoporous materialMetalloceneionic liquidApplied Catalysis A : General : an International Journal Devoted to Catalytic Science and its Applications
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Comparative Investigation on the Soil Burial Degradation Behaviour of Polymer Films for Agriculture before and after Photo-Oxidation

2020

Polymer films based on biodegradable polymers, polyethylene (PE) and modified PE with oxo-degradable additive were prepared by film blowing. Carbon black (1%) was added to all the films. Commercial biodegradable Ecovio&reg

polyethyleneEcovio<sup>®</sup>Materials sciencemulch filmsPolymers and Plasticspolymer degradation02 engineering and technologyMater-Bi<sup>®</sup>010402 general chemistry01 natural sciencesArticlelcsh:QD241-441chemistry.chemical_compoundPolymer degradationlcsh:Organic chemistrySoil retrogression and degradationbiodegradable polymers; mulch films; soil burial test; Ecovio®; Mater-Bi®; polylactide; poly(butyleneadipate-co-butyleneterephtalate); polyethylene; polymer degradation; photooxidationchemistry.chemical_classificationsoil burial testGeneral ChemistryPolymerCarbon blackPolyethyleneBiodegradation021001 nanoscience & nanotechnologyBiodegradable polymerphoto-oxidation0104 chemical sciencesSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialichemistryChemical engineeringbiodegradable polymerspolylactidepoly(butyleneadipate-<i>co</i>-butyleneterephtalate)Biodegradable polymers Ecovio® Mater-Bi® Mulch films Photo-oxidation Poly(butyleneadipate-co-butyleneterephtalate) Polyethylene Polylactide Polymer degradation Soil burial testDegradation (geology)Ecovio®poly(butyleneadipate-co-butyleneterephtalate)0210 nano-technologyMater-Bi®Polymers
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Naturally Occurring Oxazole Structural Units as Ligands of Vanadium Catalysts for Ethylene-Norbornene (Co)polymerization

2021

1,3-Oxazole and 4,5-dihydro-1,3-oxazole are common structural motifs in naturally occurring peptides. A series of vanadium complexes were synthesized using VCl3(THF)3 and methyl substituted (4,5-dihydro-1,3-oxazol-2-yl)-1,3-oxazoles as ligands and analyzed using NMR and MS methods. The complexes were found to be active catalysts both in ethylene polymerization and ethylene-norbornene copolymerization. The position of methyl substituent in the ligand has considerable impact on the performance of (co)polymerization reaction, as well as on the microstructure, and thus physical properties of the obtained copolymers.

polyethyleneEthyleneSubstituentVanadiumchemistry.chemical_elementTP1-1185010402 general chemistry01 natural sciencesCatalysisCatalysischemistry.chemical_compoundPolymer chemistryCopolymervanadium catalystPhysical and Theoretical ChemistryQD1-999polyethylene; norbornene copolymers; oxazole ligand; vanadium catalyNorborneneOxazole010405 organic chemistryChemical technology0104 chemical sciencesChemistrychemistryPolymerizationnorbornene copolymersoxazole ligandCatalysts
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Titanium and Vanadium Catalysts with 2-Hydroxyphenyloxazoline and Oxazine Ligands for Ethylene-Norbornene (co)Polymerization

2019

A series of titanium and vanadium complexes with oxazoline 2-(4,5-dihydro-1,3-oxazol-2-yl)phenol (L1), 2-(4-methyl-4,5-dihydro-1,3-oxazol-2-yl)phenol (L2), and oxazine 2-(5,6-dihydro-4H-1,3-oxazin-2-yl)phenol (L3) ligands were synthesized, and their structures were determined by NMR and MS methods as (L)2MtCl2. The vanadium complexes were found to be highly active in ethylene (7300 kgPE/(molV&middot

polyethyleneEthyleneoxazine ligandVanadiumchemistry.chemical_elementPolyethyleneCatalysisCatalysischemistry.chemical_compoundchemistryPolymerizationnorbornene copolymersPolymer chemistryCopolymervanadium catalystMolar mass distributionPhysical and Theoretical Chemistryoxazole ligandNorborneneCatalysts
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