Issue 38, 2021

Tailoring long-range superlattice chirality in molecular self-assemblies via weak fluorine-mediated interactions

Abstract

Controllable fabrication of enantiospecific molecular superlattices is a matter of imminent scientific and technological interest. Herein, we demonstrate that long-range superlattice chirality in molecular self-assemblies can be tailored by tuning the interplay of weak intermolecular non-covalent interactions between hexaphenylbenzene-based enantiomers. By means of high-resolution scanning tunneling microscopy measurements, we demonstrate that the functionalization of a hexaphenylbenzene-based molecule with fluorine (F) atoms leads to the formation of molecular self-assemblies with distinct long-range chiral recognition patterns. We employed density functional theory calculations to quantify F-mediated lone pair F⋯π, C–H⋯F, and F⋯F interactions attributed to the distinct enantiospecific molecular self-organizations. Our findings underpin a viable route to fabricate long-range chiral recognition patterns in supramolecular assemblies by engineering the weak non-covalent intermolecular interactions.

Graphical abstract: Tailoring long-range superlattice chirality in molecular self-assemblies via weak fluorine-mediated interactions

Supplementary files

Article information

Article type
Communication
Submitted
01 Jul 2021
Accepted
07 Sep 2021
First published
07 Sep 2021

Phys. Chem. Chem. Phys., 2021,23, 21489-21495

Tailoring long-range superlattice chirality in molecular self-assemblies via weak fluorine-mediated interactions

M. Telychko, L. Wang, C. Hsu, G. Li, X. Peng, S. Song, J. Su, F. Chuang, J. Wu, M. W. Wong and J. Lu, Phys. Chem. Chem. Phys., 2021, 23, 21489 DOI: 10.1039/D1CP02996G

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