Dissolution mechanism of polymers in high pressure–high temperature n‐alkanes—Application to blends separation

Abstract: The use of a high temperature-high pressure near critical solvent is an interesting alternative to dissolve high-molecular-weight polyolefins with alkanes. This characteristic allows their separation from the blends with other polymers. In the present work, the polymer dissolution of commercial polypropylene (PP) and polystyrene (PS) in n-alkanes at high pressure and high temperature is analyzed. The comprehension of the different polymer dissolution behaviors and solvent affinities clarifies the understanding… Show more

“…Naturally occurring and man-made assemblies of nanostructures from (bio)macromolecules are ubiquitous. The disintegration mechanisms and their kinetics are of importance for applications as diverse as the processing of polymer powders, 1,2 the separation of polymer blends, 3 the disintegration of microplastics in living systems 4 and of polymeric delivery systems after drug release, [5][6][7][8][9] and the dissolution of polymer scaffolds used in tissue engineering. 10 A structural understanding of these processes is essential to improve their design and, thereby, to enhance their functionality.…”

Nanoscale disintegration kinetics of mesoglobules in aqueous poly(N-isopropylacrylamide) solutions revealed by small-angle neutron scattering and pressure jumps

“…Naturally occurring and man-made assemblies of nanostructures from (bio)macromolecules are ubiquitous. The disintegration mechanisms and their kinetics are of importance for applications as diverse as the processing of polymer powders, 1,2 the separation of polymer blends, 3 the disintegration of microplastics in living systems 4 and of polymeric delivery systems after drug release, [5][6][7][8][9] and the dissolution of polymer scaffolds used in tissue engineering. 10 A structural understanding of these processes is essential to improve their design and, thereby, to enhance their functionality.…”

Nanoscale disintegration kinetics of mesoglobules in aqueous poly(N-isopropylacrylamide) solutions revealed by small-angle neutron scattering and pressure jumps

Polymer dissolution

Solvent-based separation and recycling of waste plastics: A review