Revealing the Limits of Intermolecular Interactions: Molecular Rings of Ferrocene Derivatives on Graphite Surface

Abstract: We report the formation of discrete molecular rings/spirals of small molecules (1,3-dithia derivatives of ferrocene) on a highly oriented pyrolytic graphite (HOPG) surface. On the basis of microscopy and theoretical calculations, molecular level arrangement within the molecular rings is understood. The molecular rings show a limiting inner diameter, and we interpret it to be related to the critical intermolecular interaction limit. This limiting value of the inner diameter is surprisingly correlated with that … Show more

“…7). As such, the self-assembly process of 6FF is distinctly different from those of other supramolecular spirals reported in the literatures, which required the presence of 2D self-assembly fields, such as substrate surfaces or an air-water interface [28][29][30][31][32] . When we tested other solvents, we found that the spiral structures tended to form in linear alkanes, such as hexane or dodecane ( Supplementary Fig.…”

Supramolecular double-stranded Archimedean spirals and concentric toroids

“…7). As such, the self-assembly process of 6FF is distinctly different from those of other supramolecular spirals reported in the literatures, which required the presence of 2D self-assembly fields, such as substrate surfaces or an air-water interface [28][29][30][31][32] . When we tested other solvents, we found that the spiral structures tended to form in linear alkanes, such as hexane or dodecane ( Supplementary Fig.…”

Supramolecular double-stranded Archimedean spirals and concentric toroids

Gelation switch of polyamorphic indomethacin depending on the thermal procedure