Topological design and synthesis of high-spin aza-triangulenes without Jahn-Teller distortions

TL;DR

This study combines theoretical and experimental methods to design and synthesize high-spin aza-triangulenes without Jahn-Teller distortions, revealing their electronic properties and potential for spintronic applications.

Contribution

It introduces a new approach to avoid Jahn-Teller distortions in aza-triangulenes through topological design and demonstrates successful synthesis and characterization of high-spin states.

Findings

Centrally-doped aza-triangulenes have one less radical than undoped ones.

Successfully synthesized { extpi}-extended aza-[5]triangulene with high-spin S=2.

Aza-triangulenes can be designed to prevent Jahn-Teller distortions based on symmetry considerations.

Abstract

The atomic doping of open-shell nanographenes enables the precise tuning of their electronic and magnetic state, which is crucial for their promising potential applications in optoelectronics and spintronics. Among this intriguing class of molecules, triangulenes stand out with their size-dependent electronic properties and spin states, which can also be influenced by the presence of dopant atoms and functional groups. However, the occurrence of Jahn-Teller distortions in such systems can have a crucial impact on their total spin and requires further theoretical and experimental investigation. In this study, we examine the nitrogen-doped aza-triangulene series via a combination of density functional theory and on-surface synthesis. We identify a general trend in the calculated spin states of aza-[n]triangulenes of various sizes, separating them into two symmetry classes, one of which features molecules that are predicted to undergo Jahn-Teller distortions that reduce their symmetry and thus their total spin. We link this behavior to the location of the central nitrogen atom relative to the two underlying carbon sublattices of the molecules. Consequently, our findings reveal that centrally-doped aza-triangulenes have one less radical than their undoped counterparts, irrespective of their predicted symmetry. We follow this by demonstrating the on-surface synthesis of {\pi}-extended aza-[5]triangulene, a large member of the higher symmetry class without Jahn-Teller distortions, via a simple one-step annealing process on Cu(111) and Au(111). Using scanning probe microscopy and spectroscopy combined with theoretical calculations, we prove that the molecule is positively charged on the Au(111) substrate, with a high-spin quintet state of S = 2, the same total spin as undoped neutral [5]triangulene.