Search results for "polymers"

showing 10 items of 3567 documents

Analysis of Nicotine and Its Oxidation Products in Nicotine Chewing Gum by a Molecularly Imprinted Solid-Phase Extraction

2000

Chromatographic stationary phases showing exceptional selectivity for nicotine can be prepared by the technique of molecular imprinting. Such phases were used in the search for a rapid cleanup step for nicotine and some of its oxidation products in chewing gum formulations. Thus, using an organic mobile phase, the nicotine analytes from chewing gums dissolved in nonpolar solvent were retained, whereas the nonpolar matrix eluted close to the void peak. A subsequent switch to an acidic mobile phase resulted in elution of the analytes as one sharp peak. Due to weak binding of the less basic oxidation products, other imprinted polymers were tested, and the solid-phase extraction procedure was o…

NicotineChromatographyNicotine Chewing GumPolymersChemistryElutionExtraction (chemistry)Reversed-phase chromatographyAnalytical ChemistryChewing GumMatrix (chemical analysis)SolventSolid phase extractionMolecular imprintingChromatography High Pressure LiquidAnalytical Chemistry
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Photocleavable core cross-linked polymeric micelles of polypept(o)ides and ruthenium(II) complexes

2021

Core cross-linking of polymeric micelles has been demonstrated to contribute to enhanced stability that can improve the therapeutic efficacy. Photochemistry has the potential to provide spatial resolution and on-demand drug release. In this study, light-sensitive polypyridyl-ruthenium(II) complexes were combined with polypept(o)ides for photocleavable core cross-linked polymeric micelles. Block copolymers of polysarcosine-block-poly(glutamic acid) were synthesized by ring-opening N-carboxyanhydride polymerization and modified with aromatic nitrile-groups on the glutamic acid side chain. The modified copolymers self-assembled into micelles and were cross-linked by cis-diaquabis(2,2'-bipyridi…

NitrileCell SurvivalPolymersBiomedical Engineeringchemistry.chemical_elementMicelleChorioallantoic MembraneGel permeation chromatographychemistry.chemical_compoundMicroscopy Electron TransmissionCell Line TumorPolymer chemistrySide chainCopolymerAnimalsHumansGeneral Materials ScienceMicellesPhotolysisCryoelectron MicroscopyGeneral ChemistryGeneral MedicineRutheniumchemistryPolymerizationRuthenium CompoundsPeptidesChickensLinker
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Polynitrile anions as ligands: From magnetic polymeric architectures to spin crossover materials

2010

International audience; The use of polynitrile anions as ligands (L) either alone or in combination with neutral co-ligands (L′) is a very promising and appealing strategy to get molecular architectures with different topologies and dimensionalities thanks to their ability to coordinate and bridge metal ions in many different ways. The presence of several potentially coordinating nitrile groups (or even other donor groups as –OH, –SH or –NH2), their rigidity and their electronic delocalization allow the synthesis of original magnetic high dimensional coordination polymers with transition metals ions. Furthermore, these ligands have shown coordinating and bridging capabilities in novel discr…

NitrileMetal ions in aqueous solutionMetal(II) complexesInorganic chemistry[CHIM.INOR]Chemical Sciences/Inorganic chemistry010402 general chemistry01 natural sciencesCoordination complexInorganic ChemistryDelocalized electronchemistry.chemical_compoundTransition metalSpin crossoverMagnetic propertiesMagnetic transitionMaterials Chemistry[CHIM.COOR]Chemical Sciences/Coordination chemistryPhysical and Theoretical Chemistrychemistry.chemical_classificationThermochromismThermochromism010405 organic chemistry[CHIM.ORGA]Chemical Sciences/Organic chemistryPolymer0104 chemical sciencesCoordination polymersCrystallographyPolynitrilechemistryStructural transitionNitrile ligandCyano ligand
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Label-free histamine detection with nanofluidic diodes through metal ion displacement mechanism

2017

[EN] We design and characterize a nanofluidic device for the label-free specific detection of histamine neurotransmitter based on a metal ion displacement mechanism. The sensor consists of an asymmetric polymer nanopore fabricated via ion track-etching technique. The nanopore sensor surface having metal-nitrilotriacetic (NTA-Ni2+) chelates is obtained by covalent coupling of native carboxylic acid groups with N-alpha,N-alpha-bis(carboxymethyl)-L-lysine (BCML), followed by exposure to Ni2+ ion solution. The BCML immobilization and subsequent Ni2+ ion complexation with NTA moieties change the surface charge concentration, which has a significant impact on the current-voltage (I-V) curve after…

Nitrilotriacetic AcidPolymersSurface PropertiesCarboxylic acidInorganic chemistryCarboxylic Acids02 engineering and technologyElectrolyte010402 general chemistry01 natural sciencesNanofluidic sensorIonMetalNanoporeschemistry.chemical_compoundColloid and Surface ChemistryNickelNanotechnologyNeurotransmitterSurface chargePhysical and Theoretical ChemistryNTA-metal complexElectrodesChelating AgentsIonschemistry.chemical_classificationNeurotransmitter AgentsHydrolysisElectric ConductivityEstersSurfaces and InterfacesGeneral MedicineModels Theoretical021001 nanoscience & nanotechnology0104 chemical sciencesNanoporechemistryMetalsCovalent bondSurface functionalizationFISICA APLICADAvisual_artvisual_art.visual_art_medium0210 nano-technologyHistamineHistamineBiotechnologyColloids and Surfaces B: Biointerfaces
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Radical Polymerization of Styrene Controlled by Half-Sandwich Mo(III)/Mo(IV) Couples: All Basic Mechanisms Are Possible

2001

Density functional calculations of bond dissociation energies (BDEs) have been used as a guide to the choice of metal system suitable for controlling styrene polymerization by either the stable free radical polymerization (SFRP) or the atom transfer radical polymerization (ATRP) mechanism. In accord with the theoretical prediction, CpMo(eta(4)-C(4)H(6))(CH(2)SiMe(3))(2), 2, is not capable of yielding SFRP of styrene. Still in accord with theoretical prediction, CpMo(eta(4)-C(4)H(6))Cl(2), 1, CpMo(PMe(3))(2)Cl(2), 3, and CpMo(dppe)Cl(2) (dppe = 1,2-bis(diphenylphosphino)ethane), 4, yield controlled styrene polymerization by the SFRP mechanism in the presence of 2,2'-azobisisobutyronitrile (A…

Nitroxide mediated radical polymerizationDispersityRadical polymerizationFree radicals010402 general chemistryPhotochemistry01 natural sciencesBiochemistryCatalysisStyreneStyrenesPolymerizationchemistry.chemical_compoundLiving free-radical polymerizationColloid and Surface ChemistryRadical polymerizationPolymer chemistry[CHIM.COOR]Chemical Sciences/Coordination chemistryAlkylchemistry.chemical_classification010405 organic chemistryGeneral Chemistry[CHIM.CATA]Chemical Sciences/CatalysisBond-dissociation energyBond cleavage0104 chemical sciences[CHIM.POLY]Chemical Sciences/PolymerschemistryPolymerization
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Star-Like Polymers of tert -Butyl Acrylate via Controlled Radical Polymerization - Synthesis and Properties

2011

Summary: Star polymers with different numbers and lengths of poly(tert-butyl acrylate) arms were obtained by the core-first method via atom transfer and iodine mediated radical polymerization. Multifunctional initiators with different numbers of initiating groups (from 3 to 28) were used to initiate the polymerization of tert-butyl acrylate, yielding stars with different numbers of arms. The structures of the stars were characterized by NMR and gel permeation chromatography with refractive index, multiangle laser light scattering and viscosimetric detectors.

Nitroxide mediated radical polymerizationMaterials sciencePolymers and PlasticsOrganic ChemistryRadical polymerizationChain transferCondensed Matter PhysicsPhotochemistryLiving free-radical polymerizationPolymerizationPolymer chemistryMaterials ChemistryCoordination polymerizationReversible addition−fragmentation chain-transfer polymerizationIonic polymerizationMacromolecular Symposia
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Controlled radical polymerization of alkyl acrylates and styrene using a half-sandwich molybdenum(III) complex containing diazadiene ligands

2003

Abstract The half-sandwich molybdenum(III) complex CpMoCl 2 ( i Pr 2 -dad) ( i Pr 2 -dad= i Pr–NCH–CHN– i Pr) proved to be an effective metal catalyst for the controlled radical polymerization of methyl acrylate, butyl acrylate, and styrene. In conjunction with an alkyl iodide [R–I: CH 3 CH(COOEt)I] as an initiator and in the presence or absence of Al(O– i -Pr) 3 as a co-catalyst, the molybdenum-based system gave polymers with narrow molecular weight distributions. The in situ addition of styrene to a macroinitiator of poly(methylacrylate) afforded an AB-type block copolymer.

Nitroxide mediated radical polymerizationPolymers and PlasticsBlock copolymerButyl acrylateRadical polymerizationGeneral Physics and Astronomy010402 general chemistry01 natural sciencesStyrenechemistry.chemical_compoundPolyacrylatePolymer chemistryMaterials ChemistryCopolymer[CHIM.COOR]Chemical Sciences/Coordination chemistryMethyl acrylatePolystyreneAtom transfer radical polymerizationMolybdenum010405 organic chemistryAtom-transfer radical-polymerizationOrganic ChemistrySolution polymerization[CHIM.CATA]Chemical Sciences/Catalysis0104 chemical sciences[CHIM.POLY]Chemical Sciences/PolymerschemistryEuropean Polymer Journal
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Tailored Semiconducting Polymers: Living Radical Polymerization and NLO-Functionalization of Triphenylamines

2002

This paper describes the preparation of various polymers with triarylamine side groups. High molecular weight materials were obtained by free radical polymerization utilizing the gel effect. Polymers with a marrow polydispersity and a predetermined molecular weight could be prepared by living radical polymerization. The T g could, thereby, be controlled between 50 and 140°C either by using different monomers or by varying the molecular weight. Living radical polymerization allowed in addition the preparation of block copolymers. The triarylamine side groups could be transformed into NLO-chromophores by reaction with tetracyanoethylene. This leads to the incorporation of tricyanoethylene. Th…

Nitroxide mediated radical polymerizationPolymers and PlasticsChemistryOrganic ChemistryRadical polymerizationChain transferCondensed Matter PhysicsLiving free-radical polymerizationPolymerizationPolymer chemistryMaterials ChemistryLiving polymerizationReversible addition−fragmentation chain-transfer polymerizationPhysical and Theoretical ChemistryIonic polymerizationMacromolecular Chemistry and Physics
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Cyclodextrins in Polymer Synthesis:  Free-Radical Polymerization of Methylated β-Cyclodextrin Complexes of Methyl Methacrylate and Styrene Controlled…

2000

Nitroxide mediated radical polymerizationPolymers and PlasticsChemistryOrganic ChemistryRadical polymerizationChain transferInorganic ChemistryEnd-groupLiving free-radical polymerizationPolymerizationPolymer chemistryMaterials ChemistryLiving polymerizationReversible addition−fragmentation chain-transfer polymerizationMacromolecules
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Polymerization of an activated ester monomer based on 4-vinylsulfonic acid and its polymer analogous reaction

2011

Homopolymers containing sulfonic ester side groups were synthesized by reversible addition–fragmentation chain transfer (RAFT) polymerization utilizing benzyl dithiobenzoate, cumyl dithiobenzoate, and 4-cyano-4-((thiobenzoyl)sulfanyl)pentanoic acid as chain transfer agents. Likewise diblock copolymers containing poly(styrene), poly(octylstyrene) and poly(pentafluorostyrene) as the second block were synthesized. Additionally, nitroxide mediated polymerization (NMP) was investigated for the synthesis of a homopolymer as well as for a diblock copolymer. Furthermore, the post-polymerization functionalization with various amines to yield the respective sulfonamides was conducted. The conversion …

Nitroxide mediated radical polymerizationPolymers and PlasticsOrganic ChemistryBioengineeringChain transferBiochemistryVinylsulfonic acidStyrenechemistry.chemical_compoundMonomerSulfonatechemistryPolymerizationPolymer chemistryCopolymerPolym. Chem.
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