A Pair of Interconverting Cages Formed from Achiral Precursors Spontaneously Resolve into Homochiral Conformers

Without chiral induction the emergence of homochirality from achiral molecules is rather serendipitous, as the rationale is somewhat ambiguous. We herein provide a plausible solution. From achiral precursors are formed a pair of interconverting cage conformers that exhibit a C3‐axis as the only symm...

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Veröffentlicht in:	Angewandte Chemie 2023-03, Vol.135 (14), p.n/a
Hauptverfasser:	Zuo, Yong, Liu, Xiaoning, Fu, Enguang, Zhang, Shaodong
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Sprache:	eng
Schlagworte:	Cage Cages Chemistry Chirality Precursors Racemization Self-Assembly Superstructures Symmetry Symmetry Breaking
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creator	Zuo, Yong Liu, Xiaoning Fu, Enguang Zhang, Shaodong
description	Without chiral induction the emergence of homochirality from achiral molecules is rather serendipitous, as the rationale is somewhat ambiguous. We herein provide a plausible solution. From achiral precursors are formed a pair of interconverting cage conformers that exhibit a C3‐axis as the only symmetry element. When their interconversion is impeded with intramolecular H‐bonding, each conformer self‐sorts into a homochiral crystal, which is driven by a helical network of multivalent intermolecular interactions during the self‐assembly of homochiral cage conformers. As no chiral induction is involved throughout, we believe our study could enlighten the rational design for the emergence of homochirality with several criteria: 1) formation of a molecule without inversion center or mirror plane; 2) suppression of the enantiomeric interconversion, and introduction of multivalent interactions along the helical trajectory of screw symmetry within the resulting superstructure. Starting from achiral precursors homochirality can be achieved by first forming a pair of enantiomers without inversion center or mirror image (mathematical criterium), followed by their narcissistic self‐sorting driven by multivalent intermolecular interactions that follow the helical trajectory of screw symmetry of the resulting enantiopure crystals (chemical criterium).
doi_str_mv	10.1002/ange.202217225
format	Article
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subjects	Cage Cages Chemistry Chirality Precursors Racemization Self-Assembly Superstructures Symmetry Symmetry Breaking
title	A Pair of Interconverting Cages Formed from Achiral Precursors Spontaneously Resolve into Homochiral Conformers
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