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Pentiptycene-Containing Polybenzoxazole Membranes with a Crosslinked Unimodal Network Structure for High-Temperature Hydrogen Separations

Si Li, Ziwei Dai, Tao Wang, Zihan Huang, Ruilan Guo

2022Chemistry of Materials15 citationsDOI

Abstract

Membranes with excellent stability and stable separation performance under complex or harsh conditions are essential to a successful membrane separation system. Herein, we report a new design of robust crosslinked polymer membranes with unimodal network structures that exhibit superior separation performance surpassing the 2008 upper bound for H2/CH4 separation at both ambient (35 °C) and elevated temperatures (up to 180 °C). The crosslinked membranes are based on pentiptycene-containing polybenzoxazole (PPBO) structures prepared via a new controlled crosslinking method, i.e., end-linking of telechelic PPBO oligomers with controlled molecular weight and a thermally curable phenylethynyl group at the chain ends. Using the synthesized oligomer with various molecular weights (4000–12 000 g/mol), the consequent crosslink density of unimodal networks was comprehensively varied. A nonlinear relationship between membrane properties and the crosslink density is observed, which is ascribed to the competing effects between crosslinking-induced densification and the formation of bulky benzoxazole and phenyl groups at the crosslink joints. The concept of unimodal networks exemplifies a novel approach that is able to finely tailor crosslinked microstructures and consequently maximize the membrane separation performance at elevated temperatures.

Topics & Concepts

MembraneOligomerMaterials sciencePolymerPolymer chemistryChemical engineeringBenzoxazoleNetwork structureThermal stabilityHydrogenChemistryComposite materialOrganic chemistryEngineeringComputer scienceBiochemistryMachine learningMembrane Separation and Gas TransportMuon and positron interactions and applicationsGraphene research and applications
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