Read more
This Springer Laboratory volume introduces the reader to advanced techniques for the separation and fractionation of polyolefins. It includes detailed information on experimental protocols and procedures, addressing the experimental background of different polyolefin fractionation techniques in great detail. The book summarizes important applications in all major fractionation methods with emphasis on multidimensional analytical approaches. It comprises the most powerful modern techniques, such as high temperature size exclusion chromatography (HT-SEC) for molar mass analysis, temperature rising elution fractionation (TREF) and crystallization analysis fractionation (CRYSTAF) for the analysis of chemical composition and branching, high temperature two-dimensional liquid chromatography (HT-2D-LC), solvent and temperature gradient interaction chromatography (SGIC and TGIC) and crystallization elution fractionation (CEF). Beginners as well as experiencedchromatographers will benefit from this concise introduction to a great variety in instrumentation, separation procedures and applications. With detailed descriptions of experimental approaches for the analysis of complex polyolefins, the readers are offered a toolbox to solve simple as well as sophisticated separation tasks. The book starts with an introduction into the molecular complexity of polyolefins - the most widely used synthetic polymers with rapidly growing production capacities. It systematically discusses crystallization based fractionation techniques including TREF, CRYSTAF and CEF and column chromatographic techniques for molar mass, chemical composition and microstructure, as well as the combination of different fractionations in multidimensional experimental setups. This book also includes basic information on the application of high-temperature field-flow fractionation.
List of contents
Part A Introduction.- Molecular Heterogeneity of Polyolefins.- Analytical Methods for Polyolefins.- Part B Crystallization-Based Fractionation Techniques.- Temperature Rising Elution Fractionation.- Crystallization Analysis Fractionation.- Crystallization Elution Fractionation.- Part C Column-Based Chromatographic Techniques.- Multidetector Size Exclusion Chromatography.- Solvent Gradient Interaction Chromatography.- Temperature Gradient Interaction Chromatography.- Two-Dimensional Liquid Chromatography.- Part D Field-Flow Fractionation.- Fundamentals.- Application of Field-Flow Fractionation of Polyolefins.- Analysis of Polyolefins by Asymmetric Flow FFF.- Conclusions and Future Trends.
Summary
This Springer Laboratory volume introduces the reader to advanced techniques for the separation and fractionation of polyolefins. It includes detailed information on experimental protocols and procedures, addressing the experimental background of different polyolefin fractionation techniques in great detail. The book summarizes important applications in all major fractionation methods with emphasis on multidimensional analytical approaches. It comprises the most powerful modern techniques, such as high temperature size exclusion chromatography (HT-SEC) for molar mass analysis, temperature rising elution fractionation (TREF) and crystallization analysis fractionation (CRYSTAF) for the analysis of chemical composition and branching, high temperature two-dimensional liquid chromatography (HT-2D-LC), solvent and temperature gradient interaction chromatography (SGIC and TGIC) and crystallization elution fractionation (CEF). Beginners as well as experiencedchromatographers will benefit from this concise introduction to a great variety in instrumentation, separation procedures and applications. With detailed descriptions of experimental approaches for the analysis of complex polyolefins, the readers are offered a toolbox to solve simple as well as sophisticated separation tasks. The book starts with an introduction into the molecular complexity of polyolefins - the most widely used synthetic polymers with rapidly growing production capacities. It systematically discusses crystallization based fractionation techniques including TREF, CRYSTAF and CEF and column chromatographic techniques for molar mass, chemical composition and microstructure, as well as the combination of different fractionations in multidimensional experimental setups. This book also includes basic information on the application of high-temperature field-flow fractionation.
Report
"There are no books covering the scope of polyolefin characterization by separation techniques like this one. ... The book will help both beginners and experienced researchers in the characterization of polyolefins. Advanced Separation Techniques for Polyolefins is a monograph that covers all separation technologies applicable to polyolefins. ... The books is a valuable resource to everyone working on polyolefin characterization and provides an exceptional bibliography in the field." (Benjamin Monrabal, Analytical and Bioanalytical Chemistry, Vol. 407, 2015)
