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. 2024 Jul 19;30(41):e202400519.
doi: 10.1002/chem.202400519. Epub 2024 Jun 18.

Charge-Transfer Complexes: Halogen-Doped Anthracene as a Case of Study

Simone Gilioli  1 Roberto Giovanardi  1 Camilla Ferrari  1 Monica Montecchi  1 Andrea Gemelli  2 Andrea Severini  2 Fabrizio Roncaglia  2 Alberta Carella  3 Francesco Rossella  3 Davide Vanossi  2 Andrea Marchetti  2 Raanan Carmieli  4 Luca Pasquali  1   5   6 Claudio Fontanesi  1   7
Affiliations

Charge-Transfer Complexes: Halogen-Doped Anthracene as a Case of Study

Simone Gilioli et al. Chemistry. .

Abstract

Charge transfer (CT) crystals exhibit unique electronic and magnetic properties with interesting applications. We present a rational and easy guide which allows to foresee the effective charge transfer co-crystal production and that is based on the comparison of the frontier molecular orbital (MO) energies of a donor and acceptor couple. For the sake of comparison, theoretical calculations have been carried out by using the cheap and fast PM6 semiempirical Hamiltonian and pure HF/cc-pVTZ level of the theory. The results are then compared with experimental results obtained both by chemical (bromine and iodine were used as the acceptor) and electrochemical doping (exploiting an original experimental set-up by this laboratory: the electrochemical transistor). Infra-red vibrational experimental results and theoretically calculated spectra are compared to assess both the effective donor-acceptor (D/A) charge-transfer and transport mechanism (giant IRAV polaron signature). XPS spectra have been collected (carbon (1 s) and iodine (3d5/2)) signals, yielding further evidence of the effective formation of the CT anthracene:iodine complex.

Keywords: DFT; ElectrochemicalTransistor; FTIR; charge-transfer; doping.

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