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Net-Clipping: An Approach to Deduce the Topology of Metal–Organic Frameworks Built with Zigzag Ligands

Borja Ortín‐Rubio, Hosein Ghasempour, Vincent Guillerm, Ali Morsali, Judith Juanhuix, Inhar Imaz, Daniel Maspoch

2020Journal of the American Chemical Society41 citationsDOIOpen Access PDF

Abstract

. It is based on the construction of nets by rational deconstruction of edge-transitive nets comprising higher-connected molecular building blocks (MBBs). We have applied net-clipping to predict the topologies of MOFs containing zigzag ligands. To this end, we derived 2-connected (2-c) zigzag ligands from 4-c square-like MBBs by first splitting the 4-c nodes into two 3-c nodes and then clipping their two diagonally connecting groups. We demonstrate that, when this approach is applied to the 17 edge-transitive nets containing square-like 4-c MBBs, net-clipping leads to generation of 10 nets with different underlying topologies. Moreover, we report that literature and experimental research corroborate successful implementation of our approach. As proof-of-concept, we employed net-clipping to form three new MOFs built with zigzag ligands, each of which exhibits the deduced topology.

Topics & Concepts

ZigzagNet (polyhedron)Clipping (morphology)Topology (electrical circuits)DiagonalNetwork topologyTransitive relationChemistryMathematicsCombinatoricsComputer scienceGeometryOperating systemPhilosophyLinguisticsMetal-Organic Frameworks: Synthesis and ApplicationsMagnetism in coordination complexesMetal complexes synthesis and properties
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