Responsible Daniel Villalobos
Last Update 04/12/2023
Completion Time 1 day 3 hours 9 minutes
Members 223
Webinar: Polymer characterization by Vapor Sorption Methods with Dr. Daniel Burnett

This session will explores well-established vapor sorption techniques of Dynamic Vapor Sorption (DVS) and Inverse Gas Chromatography (IGC). With a focus on applications, the webinar delves into the physicochemical characterization capabilities offered by the DVS and IGC, specific to polymers and films.

In particular to IGC, practical examples and case studies are given that cover a wide range of relevant problems, including surface energetics, wetting behavior, composite adhesion/cohesion phenomena, solubility parameters, and glass transitions.

Related to DVS, examples and case studies are reviewed that provide insight into moisture sorption properties, drying kinetics, vapor-induced phase changes, and vapor diffusion/permeability studies. Also, the hypenization of the DVS with video microscopy and Raman spectroscopy is discussed including examples on relevant materials.

Polymers
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Webinar: Polymer characterization by Vapor Sorption Methods with Dr. Daniel Burnett
Preview

This session will explores well-established vapor sorption techniques of Dynamic Vapor Sorption (DVS) and Inverse Gas Chromatography (IGC). With a focus on applications, the webinar delves into the physicochemical characterization capabilities offered by the DVS and IGC, specific to polymers and films.

In particular to IGC, practical examples and case studies are given that cover a wide range of relevant problems, including surface energetics, wetting behavior, composite adhesion/cohesion phenomena, solubility parameters, and glass transitions.

Related to DVS, examples and case studies are reviewed that provide insight into moisture sorption properties, drying kinetics, vapor-induced phase changes, and vapor diffusion/permeability studies. Also, the hypenization of the DVS with video microscopy and Raman spectroscopy is discussed including examples on relevant materials.