Self-assembly of reversed bilayer vesicles through pnictogen bonding: water-stable supramolecular nanocontainers for organic solvents

Abstract

A new air and moisture stable antimony thiolate compound has been prepared that spontaneously forms stable hollow vesicles. Structural data reveals that pnictogen bonding drives the self-assembly of these molecules into a reversed bilayer. The ability to make these hollow, spherical, and chemically and temporally stable vesicles that can be broken and reformed by sonication allows these systems to be used for encapsulation and compartmentalisation in organic media. This was demonstrated through the encapsulation and characterization of several small organic reporter molecules.

Description

© The Royal Society of Chemistry 2020. cc-by-nc

Keywords

Citation

Moaven, S., Watson, B.T., Thompson, S.B., Lyons, V.J., Unruh, D.K., Casadonte, D.J., Pappas, D., & Cozzolino, A.F.. 2020. Self-assembly of reversed bilayer vesicles through pnictogen bonding: water-stable supramolecular nanocontainers for organic solvents. Chemical Science, 11(17). https://doi.org/10.1039/d0sc00206b

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