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Helix-Sense-Selective Encapsulation of Helical Poly(lactic acid)s within a Helical Cavity of Syndiotactic Poly(methyl methacrylate) with Helicity Memory

Tomoyuki Ikai, Satoshi Kawabata, Fumihiko Mamiya, Daisuke Taura, Naoki Ousaka, Eiji Yashima

2020Journal of the American Chemical Society33 citationsDOIOpen Access PDF

Abstract

We report a highly enantio- and helix-sense-selective encapsulation of helical poly(lactic acid)s (PLAs) through a unique “helix-in-helix” superstructure formation within the helical cavity of syndiotactic poly(methyl methacrylate) (st-PMMA) with a one-handed helicity memory, which enables the separation of the enantiomeric helices of the left (M)- and right (P)-handed-PLAs. The M- and P-helical PLAs with different molar masses and a narrow molar mass distribution were prepared by the ring-opening living polymerization of the optically pure l- and d-lactides, respectively, followed by end-capping of the terminal residues of the PLAs with a 4-halobenzoate and then a C60 unit, giving the C60-free and C60-bound M- and P-PLAs. The C60-free and C60-bound M- and P-PLAs formed crystalline inclusion complexes with achiral st-PMMA accompanied by a preferred-handed helix induction in the st-PMMA backbone, thereby producing helix-in-helix superstructures with the same-handedness to each other. The induced helical st-PMMAs were retained after replacement with the achiral C60, indicating the memory of the induced helicity of the st-PMMAs. Both the C60-free and C60-bound helical PLAs were enantio- and helix-sense selectively encapsulated into the helical hollow space of the optically active M- and P-st-PMMAs with the helicity memory prepared using chiral amines. The M- and P-PLAs are preferentially encapsulated within the M- and P-st-PMMA helical cavity with the same-handedness to each other, respectively, independent of the terminal units. The C60-bound PLAs were more efficiently and enantioselectively trapped in the st-PMMA compared to the C60-free PLAs. The enantioselectivities were highly dependent on the molar mass of the C60-bound and C60-free PLAs and significantly increased as the molar mass of the PLAs increased.

Topics & Concepts

Helix (gastropod)Chirality (physics)ChemistryEnantiomerMethyl methacrylatePolymer chemistryHelicityCrystallographyStereochemistryPolymerizationMaterials scienceChiral symmetryPolymerOrganic chemistryPhysicsQuarkNambu–Jona-Lasinio modelQuantum mechanicsEcologyParticle physicsSnailBiologySynthesis and Properties of Aromatic CompoundsSupramolecular Self-Assembly in Materialsbiodegradable polymer synthesis and properties
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