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From Solution to Surface: Persistence of the Diradical Character of a Diindenoanthracene Derivative on a Metallic Substrate.

Jeremy HieulleCarlos Garcia FernandezNiklas FriedrichAlessio VeglianteSofia Sanz WuhlDaniel Sánchez-PortalMichael M HaleyJuan CasadoThomas FrederiksenJosé Ignacio Pascual
Published in: The journal of physical chemistry letters (2023)
Organic diradicals are envisioned as elementary building blocks for designing a new generation of spintronic devices and have been used in constructing prototypical field effect transistors and nonlinear optical devices. Open-shell systems, however, are also reactive, thus requiring design strategies to "protect" their radical character from the environment, especially when they are embedded in solid-state devices. Here, we report the persistence on a metallic surface of the diradical character of a diindeno[ b , i ]anthracene (DIAn) core protected by bulky end-groups. Our scanning tunneling spectroscopy measurements on single-molecules detected singlet-triplet excitations that were absent for DIAn species packed in assembled structures. Density functional theory simulations unravel that the molecular geometry on the metal substrate can crucially modify the value of the singlet-triplet gap via the delocalization of the radical sites. The persistence of the diradical character over metallic substrates is a promising finding for integrating radical-based materials into functional devices.
Keyphrases
  • solid state
  • density functional theory
  • high resolution
  • molecular dynamics
  • energy transfer
  • single molecule
  • minimally invasive
  • amino acid
  • high speed