Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5207918 | Progress in Polymer Science | 2016 | 224 Pages |
Abstract
In this review article, most recent developments of FFF in polymer analysis are addressed. Natural and synthetic polymers, polyolefins and polymeric nanocomposites are embraced. The most important FFF sub-techniques in polymer analysis include asymmetric flow field-flow fractionation (AF4) and thermal field-flow fractionation (ThFFF). Major developments in these very topics since 2008 are critically discussed following a previous review article that summarized earlier work (see Prog. Polym. Sci. 2009; 34: 351-68). The potentials and limitations of the different FFF sub-techniques for polymer analysis are elaborated and most recent methods of hyphenating FFF with other techniques are highlighted.
Keywords
AF4AFMPDIPLGADLSDMFCNCSDSESICIDPCLHDPEδtPVPSECTGABHTTHFAMPDRIHPSECPSAAPISLSPSDRMSLDPEPPOGPCPAGEFFFSBRHDCPBAMMDIUPACPVACCryo-TEMELSDSSBRMALLSPolyisopreneAsymmetric flow field-flow fractionation (AF4)Multiangle Laser Light ScatteringLCCCTGICField-flow fractionation (FFF)QELSQuasielastic light scatteringPFGESAXSmatrix-assisted laser desorption/ionization time-of-flight mass spectroscopynumber-average molar massnuclear magnetic resonanceAUCBSAanalytical ultracentrifugationMesquite gumEvaporative Light Scattering Detectorbovine serum albuminAmyloseamylopectinInternational Union of Pure and Applied ChemistryEthyl acrylateCollision-induced dissociationUltraviolettemperature drop sodium dodecyl sulfate-polyacrylamide gel electrophoresisSDS-PAGEpolyacrylamide gel electrophoresisAMYHESPolyethylene oxidePolypropylene oxideTemPolymersBoltzmann constantTetrahydrofuranThermogravimetric analysisNMRThermal field-flow fractionationfield-flow fractionationAsymmetrical flow field-flow fractionationMolar massweight-average molar massParticle size distributionMolar mass distributionHyphenated techniquesNet fluxHigh temperatureTemperaturetwo-dimensionaldimethylformamidePCssodium dodecyl sulfatedifferential refractive indexpolydispersity indexRadius of gyrationHydrodynamic radiusGum arabicChannel thicknessDiffusion coefficientFTIRMass spectrometryFourier transform infrared spectroscopyphoton correlation spectroscopyICP-MSinductively coupled plasma mass spectrometryreversed phasehydrodynamic diameterStyrene-butadiene rubberMALDI-TOF-MSMALSSEMActive pharmaceutical ingredientsroot mean squareCryogenic transmission electron microscopyScanning electron microscopyTransmission electron microscopyatomic force microscopyNanoparticlesPolymeric nanocompositesHydroxyethyl starchApplied forceSodium hyaluronatebutylated hydroxytolueneMolecular weightPAMAMsmall angle X-ray ScatteringLight scatteringstatic light scatteringDynamic Light ScatteringMultiangle light scatteringPoly(d,l-lactide-co-glycolide)PMMAPolyamidoamineUltra-high-molecular-weight PolyethyleneHigh density polyethyleneLow density polyethylenepolyethylene glycolpolymethyl methacrylatePolyvinyl acetatePoly(vinylpyrrolidone)PolypropylenePolycaprolactonePEGPolystyrenePolyurethanePEOPressure sensitive adhesiveSize exclusion chromatographyTemperature gradient interaction chromatographyhigh performance size exclusion chromatographyhigh performance liquid chromatographyLiquid chromatography at critical conditionsHPLCHydrodynamic chromatographyGel permeation chromatographyFrictional dragelectrospray ionization
Related Topics
Physical Sciences and Engineering
Chemistry
Organic Chemistry
Authors
Muhammad Imran Malik, Harald Pasch,