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On‐Surface Synthesis and Collective Spin Excitations of a Triangulene‐Based Nanostar

Jérémy Hieulle, Silvia Castro‐Fernández, Niklas Friedrich, Alessio Vegliante, Francisco Romero‐Lara, Sofía Sanz, Dulce Rey, Martina Corso, Thomas Frederiksen, José Ignacio Pascual, Diego Peña

2021Angewandte Chemie International Edition129 citationsDOIOpen Access PDF

Abstract

Triangulene nanographenes are open-shell molecules with predicted high spin state due to the frustration of their conjugated network. Their long-sought synthesis became recently possible over a metal surface. Here, we present a macrocycle formed by six [3]triangulenes, which was obtained by combining the solution synthesis of a dimethylphenyl-anthracene cyclic hexamer and the on-surface cyclodehydrogenation of this precursor over a gold substrate. The resulting triangulene nanostar exhibits a collective spin state generated by the interaction of its 12 unpaired π-electrons along the conjugated lattice, corresponding to the antiferromagnetic ordering of six S=1 sites (one per triangulene unit). Inelastic electron tunneling spectroscopy resolved three spin excitations connecting the singlet ground state with triplet states. The nanostar behaves close to predictions from the Heisenberg model of an S=1 spin ring, representing a unique system to test collective spin modes in cyclic systems.

Topics & Concepts

AntiferromagnetismSpin (aerodynamics)Spin statesCondensed matter physicsSinglet stateUnpaired electronChemistryScanning tunneling microscopeSpectroscopyChemical physicsMoleculeCrystallographyMaterials scienceAtomic physicsPhysicsQuantum mechanicsExcited stateOrganic chemistryThermodynamicsMolecular Junctions and NanostructuresSurface Chemistry and CatalysisGraphene research and applications