posted on 2019-10-22, 13:39authored byYassine Beldjoudi, Ashwin Narayanan, Indranil Roy, Tyler J. Pearson, M. Mustafa Cetin, Minh T. Nguyen, Matthew D. Krzyaniak, Fehaid M. Alsubaie, Michael R. Wasielewski, Samuel I. Stupp, J. Fraser Stoddart
Tessellation
of organic polygons though [π···π]
and charge-transfer (CT) interactions offers a unique opportunity
to construct supramolecular organic electronic materials with 2D topologies.
Our approach to exploring the 3D topology of 2D tessellations of a
naphthalene diimide-based molecular triangle (NDI-Δ) reveals that the 2D molecular arrangement is sensitive to the identity
of the solvent and solute concentrations. Utilization of nonhalogenated
solvents, combined with careful tailoring of the concentrations, results
in NDI-Δ self-assembling though [π···π]
interactions into 2D honeycomb triangular and hexagonal tiling patterns.
Cocrystallization of NDI-Δ with tetrathiafulvalene
(TTF) leads systematically to the formation of 2D tessellations
as a result of superstructure-directing CT interactions. Different
solvents lead to different packing arrangements. Using MeCN, CHCl3, and CH2Cl2, we identified three sets
of cocrystals, namely CT-A, CT-B, and CT-C, respectively. Solvent modulation plays a critical role
in controlling not only the NDI-Δ:TTF stoichiometric ratios and the molecular arrangements in the crystal
superstructures, but also prevents the inclusion of TTF guests inside the cavities of NDI-Δ. Confinement
of TTF inside the NDI-Δ cavities in
the CT-A superstructure enhances the CT character with
the observation of a broad absorption band in the NIR region. In the CT-B superstructure, the CHCl3 lattice molecules
establish a set of [Cl···Cl] and [Cl···S]
intermolecular interactions, leading to the formation of a hexagonal
grid of solvent in which NDI-Δ forms a triangular
grid. In the CT-C superstructure, three TTF molecules self-assemble, forming a supramolecular isosceles triangle TTF-Δ, which tiles in a plane alongside the NDI-Δ, producing a 3 + 3 honeycomb tiling pattern of the two different
polygons. Solid-state spectroscopic investigations on CT-C revealed the existence of an absorption band at 2500 nm, which on
the basis of TDDFT calculations, was attributed to the mixed-valence
character between two TTF•+ radical cations and one neutral TTF molecule.