Distinct Mechanisms of Triplet Pair Decay in Amorphous and Crystalline Heteroacene Thin Films

Brandon Rugg, Angana De, Sarath Santhakumar, Qiushi Ma, Brian Fluegel, Karl Thorley, John Anthony, Libai Huang, Justin Johnson

Research output: Contribution to journalArticlepeer-review

Abstract

Triplet pairs (TT) in crystalline molecular semiconductors have unique spin properties of interest for quantum information or enhancing solar photoconversion. The population and diffusion dynamics of TT have been the subject of recent studies, both in covalent dimers and in crystalline systems. Here, we monitor the triplet population in neat polycrystalline and amorphous films of a heteroacene with known TT spectral properties and tunable spin polarization depending on the intermolecular geometry. Transient measurements reveal an anomalous power dependence in polycrystalline films that we attribute to the fast diffusion and interaction of dissociated triplet pairs confined to one-dimensional stacks of strongly coupled molecules. The nongeminate triplet interaction after dephasing facilitates conversion to the triplet 3TT and eventually T1+S0. Amorphous films have no power dependence and proceed directly from 1TT to 3TT and subsequently T1+S0 via state mixing facilitated by nonparallel geometries and weak exchange coupling.
Original languageAmerican English
JournalChemPhotoChem
DOIs
StatePublished - 2024

NREL Publication Number

  • NREL/JA-5900-90311

Keywords

  • crystal
  • diffusion
  • singlet fission
  • tetracene
  • triplet
  • ultrafast

Fingerprint

Dive into the research topics of 'Distinct Mechanisms of Triplet Pair Decay in Amorphous and Crystalline Heteroacene Thin Films'. Together they form a unique fingerprint.

Cite this