Organic Materials (Jan 2020)

Lock-and-Key Exciplexes for Thermally Activated Delayed Fluorescence

  • Constantin-Christian A. Voll,
  • Georgios Markopoulos,
  • Tony C. Wu,
  • Matthew Welborn,
  • Jens U. Engelhart,
  • Sébastien Rochat,
  • Grace G. D. Han,
  • Graham T. Sazama,
  • Ting-An Lin,
  • Troy Van Voorhis,
  • Marc A. Baldo,
  • Timothy M. Swager

DOI
https://doi.org/10.1055/s-0039-3402059
Journal volume & issue
Vol. 02, no. 01
pp. 001 – 010

Abstract

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Abstract We combine synthetic supramolecular chemistry and materials science to develop novel exciplexes for thermally activated delayed fluorescence. Our approach starts from a bowl-shaped acceptor molecule for which we synthesize tailor-made donors that bind in a lock-and-key fashion. The donor design is guided by extensive density functional theory calculations of three independent donor families. The investigation of a large number of custom-synthesized donors allows us to derive empirical relationships for the prediction of the exciplex emission color. Incorporated within organic light-emitting devices, the lock-and-key exciplexes yield external quantum efficiencies of up to 5.4%, with potentially tunable emission color across the blue and green visible spectrum.

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