Branched polymers are among the most important polymers, ranging from polyolefins to polysaccharides. Branching plays a key role in the chain dynamics. It is thus very important for application properties such as mechanical and adhesive properties and digestibility. It also plays a key role in viscous properties, and thus in the mechanism of the separation of these polymers in size-exclusion chromatography (SEC). Critically reviewing the literature, particularly on SEC of polyolefins, polyacrylates and starch, we discuss common pitfalls but also highlight some unexplored possibilities to characterize branched polymers. The presence of a few long-chain branches has been shown to lead to a poor separation in SEC, as evidenced by multiple-dete...
A method for interpreting multiple-detection size separation data of complex branched homopolymers [...
Instrumental and procedural optimizations are developed for a new method to obtain 2-dimensional dis...
AbstractThe separation of molecular compounds based on their capacity to access the intra-particle p...
Size-exclusion chromatography (SEC) separates polymers by hydrodynamic volume (the universal calibra...
Size-exclusion chromatography (SEC) separates polymers by hydrodynamic volume (the universal calibra...
Branching has a strong influence on the processability and properties of polymers. However, the accu...
This article presents the SEC analysis of branched polyisobutylene PIB and polystyrene PS with high ...
SEC separates complex branched polymers by hydrodynamic volume, rather than by molecular weight or b...
SEC separates complex branched polymers by hydrodynamic volume, rather than by molecular weight or b...
DoctorFor the branching analysis of polymers, size exclusion chromatography (SEC) together with vari...
Polymer separations under non-conventional conditions have been explored to obtain a separation of l...
One of the current trends in polymer chemistry is to improve the properties of common polymers in or...
DoctorChain branching occurs in many commercial polymers and affects their rheological properties an...
The application possibilities of preparative size exclusion chromatography for the detailed analysis...
Size exclusion chromatography (SEC) is one of the most used analytical methods in chemistry to deter...
A method for interpreting multiple-detection size separation data of complex branched homopolymers [...
Instrumental and procedural optimizations are developed for a new method to obtain 2-dimensional dis...
AbstractThe separation of molecular compounds based on their capacity to access the intra-particle p...
Size-exclusion chromatography (SEC) separates polymers by hydrodynamic volume (the universal calibra...
Size-exclusion chromatography (SEC) separates polymers by hydrodynamic volume (the universal calibra...
Branching has a strong influence on the processability and properties of polymers. However, the accu...
This article presents the SEC analysis of branched polyisobutylene PIB and polystyrene PS with high ...
SEC separates complex branched polymers by hydrodynamic volume, rather than by molecular weight or b...
SEC separates complex branched polymers by hydrodynamic volume, rather than by molecular weight or b...
DoctorFor the branching analysis of polymers, size exclusion chromatography (SEC) together with vari...
Polymer separations under non-conventional conditions have been explored to obtain a separation of l...
One of the current trends in polymer chemistry is to improve the properties of common polymers in or...
DoctorChain branching occurs in many commercial polymers and affects their rheological properties an...
The application possibilities of preparative size exclusion chromatography for the detailed analysis...
Size exclusion chromatography (SEC) is one of the most used analytical methods in chemistry to deter...
A method for interpreting multiple-detection size separation data of complex branched homopolymers [...
Instrumental and procedural optimizations are developed for a new method to obtain 2-dimensional dis...
AbstractThe separation of molecular compounds based on their capacity to access the intra-particle p...