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Truchet-tile structure of a topologically aperiodic metal–organic framework

Emily G. Meekel, Ella Schmidt, Lisa J. Cameron, A. David Dharma, Hunter J. Windsor, Samuel G. Duyker, Arianna Minelli, Tom Pope, Giovanni Orazio Lepore, Ben Slater, Cameron J. Kepert, Andrew L. Goodwin

2023Science61 citationsDOI

Abstract

When tiles decorated to lower their symmetry are joined together, they can form aperiodic and labyrinthine patterns. Such Truchet tilings offer an efficient mechanism of visual data storage related to that used in barcodes and QR codes. We show that the crystalline metal–organic framework [OZn 4 ][1,3-benzenedicarboxylate] 3 (TRUMOF-1) is an atomic-scale realization of a complex three-dimensional Truchet tiling. Its crystal structure consists of a periodically arranged assembly of identical zinc-containing clusters connected uniformly in a well-defined but disordered fashion to give a topologically aperiodic microporous network. We suggest that this unusual structure emerges as a consequence of geometric frustration in the chemical building units from which it is assembled.

Topics & Concepts

Aperiodic graphTileSubstitution tilingRealization (probability)Penrose tilingMicroporous materialQuasicrystalSymmetry (geometry)FrustrationCrystallographySuperstructureCrystal structureTopology (electrical circuits)PhysicsGeometryMaterials scienceCombinatoricsChemistryMathematicsCondensed matter physicsComposite materialThermodynamicsStatisticsMetal-Organic Frameworks: Synthesis and ApplicationsNanocluster Synthesis and ApplicationsMagnetism in coordination complexes
Truchet-tile structure of a topologically aperiodic metal–organic framework | Litcius